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HNC Electric HV580L-004G3 User Manual

Hv580l series
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HV580L Series Frequency Inverter
User Manual
HNC Electric Limited

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Summary of Contents for HNC Electric HV580L-004G3

  • Page 1 HV580L Series Frequency Inverter User Manual HNC Electric Limited...

  • Page 2: Table Of Contents

    HV580L Series Frequency Inverter Contents Contents ........................ 2 Chapter 1 Safety Information and Precautions............. 4 1.1 Safety Information .................... 4 1.2 General Precautions ..................7 Chapter 2 Product Information ................10 2.1 Designation Rules and Nameplate of the HV580L .......... 10 2.2 Nameplates .....................
  • Page 3 HV580L Series Frequency Inverter Group P9 Fault and Protection ................142 Group PA: Process Control PID Function ............152 Group PB: Swing Frequency, Fixed Length and Count ........158 Group PC: Multi-Reference and Simple PLC Function ........161 Group PD: Communication parameters ............. 167 Group PP: User’s password .................

  • Page 4: Chapter 1 Safety Information And Precautions

    Read this manual carefully so that you have a thorough understanding. Installation, commissioning or maintenance may be performed in conjunction with this chapter. HNC Electric will assume no liability or responsibility for any injury or loss caused by improper operation.
  • Page 5 HV580L Series Frequency Inverter • Do not drop wire end or screw into the AC drive. Failure to comply will result in damage to the AC drive. • Install the AC drive in places free of vibration and direct sunlight. WARNING •...
  • Page 6 HV580L Series Frequency Inverter • Cover the AC drive properly before power-on to prevent electric shock. • All peripheral devices must be connected properly under the instructions described WARNING in this manual. Failure to comply will result in accidents. • Do not open the AC drive's cover after power-on. Failure to comply may result in electric shock.

  • Page 7: General Precautions

    HV580L Series Frequency Inverter • Repair or maintenance of the AC drive may be performed only by qualified personnel. Failure to comply will result in personal injury or damage to the AC drive. • Do not repair or maintain the AC drive at power-on. Failure to comply will result in electric shock.
  • Page 8 11) Altitude and de-rating In places where the altitude is above 1000 m and the cooling effect reduces due to thin air, it is necessary to de-rate the AC drive. Contact HNC Electric for technical support. 12) Some special usages If wiring that is not described in this manual such as common DC bus is applied, contact the agent or HNC Electric for technical support.
  • Page 9 HV580L Series Frequency Inverter generated when the plastic parts are burnt. Treat them as ordinary industrial waste 14) Adaptable Motor • The standard adaptable motor is adaptable four-pole squirrel-cage asynchronous induction motor or PMSM. For other types of motor, select a proper AC drive according to the rated motor current. •...

  • Page 10: Chapter 2 Product Information

    HV580L Series Frequency Inverter Chapter 2 Product Information 2.1 Designation Rules and Nameplate of the HV580L 2.2 Nameplates MODEL: HV580L-7R5G3 POWER: 7.5KW INPUT: 3PH AC380V 20.5A 50Hz/60Hz OUTPUT: 3PH AC 0~380V 17A 0~300Hz Bar code S/N: HNC Electric Limited...

  • Page 11: Hv580L Variable-Frequency Drive Series

    HV580L Series Frequency Inverter 2.3 HV580L Variable-frequency Drive series Figure 2-1 HV 580L Inverter model and technical data Input Output Adapter motor Variable frequency Drive type Voltage V Current A current A HV580L-004G3 380V,50/60Hz 10.5 HV580L-5R5G3 380V,50/60Hz 15.5 HV580L-7R5G3 380V,50/60Hz HV580L-7R5G3-A 380V,50/60Hz...

  • Page 12: Technical Specifications

    HV580L Series Frequency Inverter 2.4 Technical specifications Figure 2-2 Technical specifications of the HV580L Item Specifications Maximum • Vector control: 0–300 Hz• V/F control: 0–320 Hz frequency Carrier 0.5–16 kHz Frequency The carrier frequency is automatically adjusted based on the load features. Input frequency Digital setting: 0.01 Hz Analog setting: maximum frequency x 0.025%...
  • Page 13 HV580L Series Frequency Inverter It realizes process-controlled closed loop control system easily. Onboard PID Auto voltage It can keep constant output voltage automatically when the mains voltage regulation changes. (AVR) The current and voltage are limited automatically during the running Over voltage/ process so as to avoid frequent tripping due to over voltage/over current.
  • Page 14 HV580L Series Frequency Inverter Item Specifications • Operation panel • Control terminals • Serial communication port Running command source You can perform switchover between these sources in various ways. There are a total of 10 frequency sources, such as digital setting, analog voltage setting, analog current setting, pulse setting and serial Frequency source communication port setting.
  • Page 15 HV580L Series Frequency Inverter Standard 1 high-speed pulse output terminal (open-collector) that supports 0–100 kHz square wave signal output 1 digital output (DO) terminal 1 relay output terminal 1 analog output (AO) terminal that supports 0–20 m A Output terminal current output or 0–10 V voltage output Expanding capacity: 1 DO terminal...

  • Page 16: Variable-Frequency Drive Rated Output Current

    HV580L Series Frequency Inverter Vibration Less than 5.9 m/s2 (0.6 g) Storage Temperature - 20℃ ~ + 60℃ IP level IP20 Pollution degree Power distribution TN , TT System 2.5 Variable-frequency Drive rated output current Figure 2-3 Variable-frequency Drive rated output current Input voltage 220V 380V...

  • Page 17: Chapter 3 Mechanical And Electrical Installation

    HV580L Series Frequency Inverter Chapter 3 Mechanical and Electrical Installation 3.1 Mechanical Installation 3.1.1 Installation Environment Requirements 1. Ambient temperature -10℃~40℃,Well ventilated or indoor Spaces with ventilation devices, more than 40 ℃ derating use. Avoid vibration, direct sunlight, away from heat source. 2.
  • Page 18 HV580L Series Frequency Inverter 3.1.3 Mounting dimension 1)Online example Figure 3-1 HV580L series online example...
  • Page 19 Figure 3-2 HV580L series Plastic structure shape dimension and installation dimension sketch 2)HV580L series VFD Mounting dimension and Mounting position size(mm) 3-1 Exterior and Mounting position size Mounting Mounting External dimension position Weight position mm diameter VFD type Three phase 380V HV580L-004G3 ф5.0 HV580L-5R5G3 HV580L-7R5G3 HV580L-7R5G3-A HV580L-011G3 ф6.0 HV580L-015G3 Ф7.0 HV580L-018G3...
  • Page 20 HV580L Series Frequency Inverter 3)Irfpa keyboard installation dimensions Figure 3-3 Irfpa keyboard installation dimensions...

  • Page 21: Electrical Installation

    HV580L Series Frequency Inverter Figure 3-4 Irfpa keyboard installation hole size 3.2 Electrical Installation 3.2.1 Description of Main Circuit Terminals Description of Main Circuit Terminals of Three-phase AC drive: Figure 3-5 HV580L Inverter main circuit terminal distribution 3-2 Description of Main Circuit Terminals of Three-phase AC drive Terminal Name Description...
  • Page 22 HV580L Series Frequency Inverter ● Terminals (+) and (-) of DC bus have residual voltage after the AC drive is switched off. After indicator CHARGE goes off, wait at least 10 minutes before touching the equipment Otherwise, you may get electric shock.
  • Page 23 HV580L Series Frequency Inverter ● Select the size of the PE conductor according to the following table: Table 3-3 Grounding conductor size table Cross-sectional Area of a Min. Cross-sectional Area of Phase Conductor (S) Protective Conductor (Sp) S ≤ 16mm2 16mm2 <...
  • Page 24 HV580L Series Frequency Inverter Type Terminal Name Function Description X1- OP Digital input1 Optical coupling isolation, compatible with dual polarity input X2- OP Digital input 2 Impedance: 2.4 kΩ X3- OP Digital input 3 Voltage range for level input: 9–30 V X4- OP Digital input 4 Digital input...
  • Page 25 HV580L Series Frequency Inverter 3.2.4 Wiring of AC Drive Control Circuit Figure 3-7 AC drives control circuit connection mode Note: All HV580L series AC drives have the same wiring mode. The figure here shows the wiring of single-phase 220 VAC drive. ◎...
  • Page 26 HV580L Series Frequency Inverter 3.2.5 Electric Wiring of the HV580L Figure 3-8 Electric wiring of the HV580L...

  • Page 27: Chapter 4 Operation, Display And Application Examples

    HV580L Series Frequency Inverter Chapter 4 Operation, Display and Application Examples 4.1 Operation Panel You can modify the parameters, monitor the working status and start or stop the HV580L by operating the operation panel, as shown in the following figure: Figure 4-1 Diagram of the operation panel...
  • Page 28 HV580L Series Frequency Inverter Description of Indicators: ● RUN: ON indicates that the AC drive is in the running state, and OFF indicates that the AC drive is in the stop state. ● LOCAL/REMOT: It indicates whether the AC drive is operated by means of operation panel, terminals or Communication.

  • Page 29: Description Of Keys On The Operation Panel

    HV580L Series Frequency Inverter 4.2 Description of keys on the operation panel 4.2 Viewing and Modifying Function Codes The operation panel of the HV580L adopts three-level menu. The three-level menu consists of function code group (Level I), function code (Level II), and function code setting value (level III), as shown in the following figure.
  • Page 30 HV580L Series Frequency Inverter Figure 4-2 Operation procedure on the operation panel • After you press ENTER, the system saves the parameter setting first, and then goes back to Level II menu and shifts to the next function code. • After you press PRG, the system does not save the parameter setting, but directly returns to Level II menu and remains at the current function code.

  • Page 31: Chapter 5 Function Code Table

    HV580L Series Frequency Inverter Chapter 5 Function Code Table If PP-00 is set to a non-zero number, parameter protection is enabled. You must enter the correct user password to enter the menu. To cancel the password protection function, enter with password and set PP-00 to 0. Group P and Group A are standard function parameters.
  • Page 32 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code The same as P0-03 (Main Auxiliary frequency source Y ★ P0-04 selection frequency source X selection) 0: Relative to maximum Range of auxiliary frequency ☆ P0-05 Y for X and Y operation frequency Range of auxiliary frequency 0% ~...
  • Page 33 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Model 0.5kHz ~ 16.0kHz ☆ P0-15 Carrier frequency dependent Carrier frequency 0: No ☆ P0-16 adjustment with temperature 1: Yes Model 0s ~ 65000s ☆ P0-17 Acceleration time 1 dependent Model 0s ~...
  • Page 34 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Unit's digit (Binding operation panel command to frequency source) 0: No binding 1: Frequency source by digital setting 2: AI1 3: AI2 4: AI3 5: Pulse setting (X 5) Binding command source to P0-27 0000...
  • Page 35 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Model ★ P1-04 Rated motor frequency 0.01 Hz to maximum frequency dependent Model Rated motor rotational speed 1rpm ~ 65535rpm ★ P1-05 dependent 0.001–65.535 Ω (AC drive power ≤ 55 Stator resistance Tuned ★...
  • Page 36 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Back EMF (synchronous Tuned 0.1V ~ 6553.5V ★ P1-20 motor) parameters Encoder pulses per revolution 1 ~ 65535 ★ P1-27 1024 0: ABZ incremental encoder 1: UVW incremental encoder ★...
  • Page 37 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Vector control over excitation 0 ~ 200 ☆ P2-08 gain 0:Function Code P2-10 Setting 1: VS 2: AS 3: VS2 Torque upper limit source in 4: Pulse setting ☆...
  • Page 38 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Maximum field weakening 1% ~ 300% ☆ P2-20 current Field weakening automatic 10% ~ 500% ☆ P2-21 100% adjustment gain Field weakening integral 2 ~ 10 ☆ P2-22 multiple Group P3: V/F Control Parameters 0: Linear V/F...
  • Page 39 HV580L Series Frequency Inverter Function Code Parameter Name Setting Range Default Property 0.0% ~ 100.0% ★ P3-08 Multi-point V/F voltage 3 78.0% 0.0% ~ 200.0% ☆ P3-09 V/F slip compensation gain 0.0% 0 ~ 200 ☆ P3-10 V/F over-excitation gain V/F oscillation suppression Model 0 ~...
  • Page 40 HV580L Series Frequency Inverter Function Code Parameter Name Setting Range Default Property Group P4 Input terminal 0: No function 1: Forward RUN (FWD) X1 function selection 2: Reverse RUN (REV) ★ P4-00 (Standard on-board) 3: Three-line control 4: Forward JOG (FJOG) 5: Reverse JOG (RJOG) 6: Terminal UP 7: Terminal DOWN...
  • Page 41 HV580L Series Frequency Inverter 22: PID pause 23: PLC status reset X5 function selection 24: Swing pause ★ P4-04 (Standard on-board) 25: Counter input 26: Counter reset 27: Length count input 28: Length reset 29: Torque control prohibited 30: Pulse input (enabled only for DI5) X6 function selection ★...
  • Page 42 HV580L Series Frequency Inverter 42: Motor selection terminal 2 43: PID parameter switchover 44: User defined fault 1 X9 function selection ★ P4-08 45: User defined fault 2 (On-board expansion card) 46: Speed control/Torque control switchover 47: Emergency stop 48: External STOP terminal 2 49: Deceleration DC braking 50: Clear the current running time...
  • Page 43 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code 0: Two-line mode 1 1: Two-line mode 2 ★ P4-11 Terminal command mode 2: Three-line mode 1 3: Three-line mode 2 0.001Hz/s ~ 65.535Hz/s 1.00Hz/s ☆ P4-12 Terminal UP/DOWN rate 0.00V ~...
  • Page 44 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code P4-28 ~ 100.00kHz 50.00kHz ☆ P4-30 PULSE maximum input Corresponding setting of -100.0% ~ 100.0% ☆ P4-31 100.0% pulse maximum input 0.00s ~ 10.00s ☆ P4-32 PULSE filter time 0.10s Curve 1 (2 points, see P4-13 to P4-16)
  • Page 45 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code 0.0s ~ 3600.0s ★ P4-35 X1 delay time 0.0s 0.0s ~ 3600.0s ★ P4-36 X2 delay time 0.0s 0.0s ~ 3600.0s ★ P4-37 X3 delay time 0.0s 0: High level valid 1: Low level valid Unit's digit: X1 Ten's digit: X2...
  • Page 46 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Group P5: Output Terminals 0: Pulse output (Y2P) ☆ P5-00 Y2 terminal output mode 1: Pulse output (Y2R) 0: No output 1: AC drive running 2: Fault output (stop) 3: Frequency-level detection PDT1 output 4: Frequency reached...
  • Page 47 HV580L Series Frequency Inverter 25: Frequency level detection Y1 function selection (open FDT2 output ☆ P5-04 collector output terminal) 26: Frequency 1 reached 27: Frequency 2 reached 28 : Current 1 reached 29 : Current 2 reached 30 : Timing reached 31 : AI-1 input limit exceeded 32 : Load becoming 0 33 : Reverse running...
  • Page 48 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code 0 : Running frequency ☆ P5-06 Y2P function selection 1: Set frequency ☆ P5-07 AO1 function selection 2: Output current 3: Output torque (absolute value) 4: Output power 5: Output voltage 6: Pulse input 7: VS...
  • Page 49 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code 0: Positive logic 1: Negative logic Unit's digit: Y2R ☆ P5-22 DO valid mode selection Ten's digit: RELAY1 0.0s Hundred's digit: RELAY2 Thousand's digit: Y1 Ten thousand's digit: Y2 Group P6: Start/Stop Control 0: Direct start 1: Rotational speed tracking...
  • Page 50 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Time proportion of S-curve 0.0% ~ (100.0%-P6-09) ★ P6-08 80.0% start segment Time proportion of S-curve 0.0% ~ (100.0%-P6-08) ★ P6-09 10.0% end segment 0: Decelerate to stop ☆...
  • Page 51 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code 0000–FFFF Bit00: Running frequency 1 (Hz) Bit01: Set frequency (Hz) Bit02: Bus voltage (V) Bit03: Output voltage (V) Bit04: Output current (A) Bit05: Output power (kW) Bit06: Output torque (%) ☆...
  • Page 52 HV580L Series Frequency Inverter 0000–FFFF Bit00: PID feedback Bit01: PLC stage Bit02: Pulse setting frequency(kHz) Bit03: Running frequency 2 (Hz) Bit04: Remaining running time Bit05: VS voltage before correction (V) Bit06: AS voltage before correction (V) ☆ Bit07: VS2 voltage before correction (V) P7-04 LED display running parameters 2 Bit08: Linear speed...
  • Page 53 HV580L Series Frequency Inverter ● P7-07 Heatsink temperature of inverter module 0.0℃~ 100.0℃ ● P7-08 Temporary software version ● 0h ~ 65535h P7-09 Accumulative running time ● P7-10 Product number ● P7-11 Software version 0: 0 decimal place Number of decimal places ☆...
  • Page 54 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Model 0.0s ~ 6500.0s ☆ P8-03 Acceleration time 2 dependent Model 0.0s ~ 6500.0s ☆ P8-04 Deceleration time 2 dependent Model 0.0s ~ 6500.0s ☆ P8-05 Acceleration time 3 dependent Model 0.0s ~...
  • Page 55 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Detection range of frequency 0.0% ~ 100.0% (maximum frequency) ☆ P8-21 0.0% reached Jump frequency during ☆ P8-22 0: Disabled 1: Enabled acceleration/deceleration Frequency switchover point ☆ P8-25 between acceleration time 1 0.00 Hz to maximum frequency 0.00Hz...
  • Page 56 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Output over current detection 0.00s ~ 600.00s ☆ P8-37 0.00s delay time ☆ P8-38 Any current reaching 1 0.0%–300.0% (rated motor current) 100.0% Any current reaching 1 ☆ P8-39 0.0%–300.0% (rated motor current) 0.0%...
  • Page 57 HV580L Series Frequency Inverter Brake release frequency ☆ P8-56 0.00 to 25.00Hz threshold ☆ Brake release delay ON set P8-57 0.0 to 5.0s 0.1s time ☆ P8-58 Brake apply frequency 0.0 to 5.0 sec 0.1 0.00 to 25.00Hz 0.50Hz threshold ☆...
  • Page 58 HV580L Series Frequency Inverter DO action during fault auto 0: Not act ☆ P9-10 reset 1: Act Time interval of fault auto 0.1s ~ 100.0s ☆ P9-11 1.0s reset Input phase loss protection/ Unit's digit: Input phase loss protection ☆ P9-12 contactor energizing Ten's digit: Contactor energizing protection...
  • Page 59 HV580L Series Frequency Inverter 2: Over-current during acceleration 3: Over-current during deceleration 4: Over-current at constant speed 5: Overvoltage during acceleration 6: Overvoltage during deceleration 7: Overvoltage at constant speed 8: Buffer resistance overload 9: Under voltage 10: AC drive overload 11: Motor overload 12: Power input phase loss 13: Power output phase loss...
  • Page 60 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code ● - - P9-17 Frequency upon 3rd fault - - ● P9-18 Current upon 3rd fault - - ● P9-19 Bus voltage upon 3rd fault ● - - P9-20 DI status upon 3rd fault ●...
  • Page 61 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code ● - - P9-40 Current upon 1st fault ● - - P9-41 Bus voltage upon 3rd fault ● - - P9-42 DI status upon 1st fault Output terminal status upon ●...
  • Page 62 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Unit's digit (User-defined fault 1, Err27) 0: Coast to stop 1: Stop according to the stop mode 2: Continue to run Ten's digit (User-defined fault 2, Err28) 0: Coast to stop 1: Stop according to the stop mode 2: Continue to run Fault protection action...
  • Page 63 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Motor overheat protection ☆ P9-57 0℃~ 200℃ 110℃ threshold Motor overheat warning ☆ P9-58 0℃~ 200℃ 90℃ threshold 0: Invalid Action selection at ☆ P9-59 1: Decelerate instantaneous power failure 2: Decelerate to stop Action pause judging voltage 80.0% ~...
  • Page 64 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Group PA: Process Control PID Function 0: PA-01 setting 1: VS 2: AS ☆ 3: VS2 PA-00 PID setting source 4: PULSE setting (X5) 5: Communication setting 6: Multi-reference 0.0% ~...
  • Page 65 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code 0.00 ~ 60.00s ☆ PA-13 PID output filter time 0.00s ☆ PA-14 Reserved 0.0 ~ 100.0 ☆ PA-15 Proportional gain Kp2 20.0 0.01s ~ 10.00s ☆ PA-16 Integral time Ti2 2.00s 0.000s ~...
  • Page 66 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Group PB: Swing Frequency, Fixed Length and Count 0: Relative to the central frequency ☆ Pb-00 Swing frequency setting mode 1: Relative to the maximum frequency 0.0% ~ 100.0% ☆...
  • Page 67 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code 0: Stop after the AC drive runs one cycle 1: Keep final values after the AC drive ☆ PC-16 Simple PLC running mode runs one cycle 2: Repeat after the AC drive runs one cycle Unit's digit (Retentive upon power failure)
  • Page 68 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code 0 ~ 3 Acceleration/deceleration time of ☆ PC-27 simple PLC reference 4 0.0s(h) ~ 6553.5s(h) Running time of simple PLC ☆ PC-28 0.0s(h) reference 5 0 ~ 3 Acceleration/deceleration time of ☆...
  • Page 69 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code 0.0s(h) ~ 6553.5s(h) ☆ Running time of simple PLC 0.0s(h) PC-42 reference 12 0 ~ 3 ☆ Acceleration/deceleration time PC-43 of simple PLC reference 12 0.0s(h) ~ 6553.5s(h) ☆...
  • Page 70 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Group Pd: Communication Parameters Unit’s digit: MODBUS 0: 300BPS 1: 600BPS 2: 1200BPS 3: 2400BPS 4: 4800BPS 5: 9600BPS 6: 19200BPS 7: 38400BPS 8: 57600BPS 9: 115200BPS Ten’s digit: Profibus-DP 0: 115200BPs ☆...
  • Page 71 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code 0: Broadcast address ☆ Pd-02 Local address 1 ~ 247 (Valid for MODBUS, Profibus-DP, and 0 ~ 20ms (Valid for MODBUS) ☆ Pd-03 MODBUS Response delay CANlink) 0.0: invalid 0.1 ~...
  • Page 72 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Unit's digit (Group U display selection) 0: Not display AC drive parameter display 1: Display ★ PP-02 property Ten's digit (Group A display selection) 0: Not display 1: Display Unit's digit (User-defined parameter display selection) 0: Not display...
  • Page 73 HV580L Series Frequency Inverter Function Parameter Name Setting Range Default Property Code Torque digital setting in torque -200.0% ~ 200.0% ☆ A0-03 150.0% control Forward maximum frequency in 0.00Hz ~maximum frequency ☆ A0-05 50.00Hz torque control Reverse maximum frequency in 0.00Hz ~maximum frequency ☆...
  • Page 74 HV580L Series Frequency Inverter Communication Function Code Parameter Name Min. Unit Address C-17 PLC stage 7011H C-18 Input pulse frequency (Hz) 0.01kHz 7012H C-19 Feedback speed (Hz) 0.01Hz 7013H C-20 Remaining running time 0.1Min 7014H C-21 VS voltage before correction 0.001V 7015H C-22...

  • Page 75: Chapter 6 Description Of Function Codes

    HV580L Series Frequency Inverter Chapter 6 Description of Function Codes Group P0: Basic Parameters Default Model dependent GP type display P0-00 G type (constant torque load) Setting Range P type (variable torque load e.g. fan and pump) This parameter is used to display the delivered model and cannot be modified 1: Applicable to constant torque load with rated parameters specified 2: Applicable to variable torque load (fan and pump) with rated parameters specified Motor 1 control mode...
  • Page 76 HV580L Series Frequency Inverter 0:Operation panel control channel (―LOCAL/REMOT‖ indicator off) Commands are given by pressing keys ―RUN‖ and ―STOP/RES‖ on the operation panel 1:Terminal control (―LOCAL /REMOT‖ indicator on) Commands are given by means of multifunctional input terminals with functions such as FWD, REV, JOGF, and JOGR.
  • Page 77 HV580L Series Frequency Inverter terminals). When the AC drive is powered on again after power failure, the set frequency is the value memorized at the moment of the last power failure. Note that P0-23 (Retentive of digital setting frequency upon power failure) determines whether the set frequency is memorized or cleared when the AC drive stops.
  • Page 78 HV580L Series Frequency Inverter optional communication cards and you can select one based on actual requirements. If the communication protocol is Modbus, PROFIBUS-DP or CANopen, the corresponding serial communication protocol needs to be selected based on the setting of P0-28. Auxiliary frequency source Default Y selection...
  • Page 79 HV580L Series Frequency Inverter 0% ~ 150% Setting Range If X and Y operation is used, P0-05 and P0-06 are used to set the adjustment range of the auxiliary frequency source. You can set the auxiliary frequency to be relative to either maximum frequency or main frequency X. If relative to main frequency X, the setting range of the auxiliary frequency Y varies according to the main frequency X.
  • Page 80 HV580L Series Frequency Inverter When the multi-function input terminals function 18 (frequency switch) is invalid, the auxiliary frequency Y as the target frequency. When the multi-function input terminals function 18 (frequency switch) is valid, the main and auxiliary operation result as the target frequency. Ten digits: Frequency source main and auxiliary operation relations.
  • Page 81 HV580L Series Frequency Inverter value of this parameter. The output frequency of the HV580L can reach up to 3200 Hz. To take both frequency reference resolution and frequency input range into consideration, you can set the number of decimal places for frequency reference in P0-22.
  • Page 82 HV580L Series Frequency Inverter It is used to adjust the carrier frequency of the AC drive, helping to reduce the motor noise, avoiding the resonance of the mechanical system, and reducing the leakage current to the earth and interference generated by the AC drive. If the carrier frequency is low, output current has high harmonics, and the power loss and temperature rise of the motor increase.
  • Page 83 HV580L Series Frequency Inverter 0.00s ~ 650.00s (P0-19=2) Setting Range 0.0s ~ 6500.0s (P0-19=1) Acceleration time indicates the time required by the AC drive to accelerate from 0 Hz to 0s ~ 65000s(P0-19=0) "Acceleration/Deceleration base frequency" (P0-25), that is, t1 in Figure 6-1. Deceleration time indicates the time required by the AC drive to decelerate from "Acceleration/Deceleration base frequency"...
  • Page 84 HV580L Series Frequency Inverter acceleration/deceleration time also change. Frequency offset of auxiliary Default 0.00Hz frequency source for X and Y P0-21 operation 0.00Hz ~maximum frequency P0-10 Setting Range This parameter is valid only when the frequency source is set to "X and Y operation". The final frequency is obtained by adding the frequency offset set in this parameter to the X and Y operation result.
  • Page 85 HV580L Series Frequency Inverter independent motor auto-tuning, different control modes, and parameters related to running performance respectively for the four motors. Motor parameter group 1 corresponds to groups P1 and P2. Motor parameter groups 2, 3 and 4 correspond to groups A2, A3 and A4 respectively.

  • Page 86: Group P1: Motor 1 Parameters

    HV580L Series Frequency Inverter PULSE setting (X5) Multi-reference Simple PLC Communication setting Binding terminal command to frequency source Ten’s digit (0–9, same as unit's digit) Hundred’s Binding communication command to frequency source digit (0–9, same as unit's digit) It is used to bind the three running command sources with the nine frequency sources, facilitating to implement synchronous switchover.
  • Page 87 HV580L Series Frequency Inverter 0.01A ~ 655.35A( AC drive power <=55kW) Setting Range 0.1A ~ 6553.5A( AC drive power >55kW) Rated motor frequency Default Model dependent P1-04 0.01Hz ~maximum frequency Setting Range Rated motor rotational Default Model dependent P1-05 speed 1rpm ~...
  • Page 88 HV580L Series Frequency Inverter 0.01A ~ P1-03(AC drive power ≤ 55kW) Setting Range 0.1A ~ P1-03(AC drive power >55kW) The parameters in P1-06 to P-10 are asynchronous motor parameters. These parameters are unavailable on the motor nameplate and are obtained by means of motor auto-tuning. Only P1-06 to P1-08 can be obtained through static motor auto-tuning.
  • Page 89 HV580L Series Frequency Inverter You can also directly set the parameters based on the data provided by the synchronous motor manufacturer. Encoder pulses per revolution Default 1024 P1-27 1 ~ 65535 Setting Range This parameter is used to set the pulses per revolution (PPR) of ABZ or UVW incremental encoder. In CLVC mode, the motor cannot run properly if this parameter is set incorrectly.
  • Page 90 HV580L Series Frequency Inverter U, V, W phase sequence of Default P1-32 encoder Forward Setting Range Reverse UVW encoder angle offset Default 0.0° P1-33 0.0° ~ 359.9° Setting Range These two parameters are valid only when the UVW encoder is applied to a synchronous motor. They can be obtained by synchronous motor no-load auto-tuning or with-load auto tuning.
  • Page 91 HV580L Series Frequency Inverter It is applicable to scenarios where complete auto-tuning cannot be performed because the asynchronous motor cannot be disconnected from the load. Before performing static auto-tuning, properly set the motor type and motor nameplate parameters of P1-00 to P1-05 first.

  • Page 92: Group P2: Vector Control Parameters

    HV580L Series Frequency Inverter auto-tuning. 12: Synchronous motor no-load auto-tuning If the synchronous motor can be disconnected from the load, no-load auto-tuning is recommended, which will achieve better running performance compared with with-load auto-tuning. During the process of no-load auto-tuning, the AC drive performs with-load auto-tuning first and then accelerates to 80% of the rated motor frequency within the acceleration time set in P0-17.
  • Page 93 HV580L Series Frequency Inverter parameters are P2-03 and P2-04. • If the running frequency is between P2-02 and P2-05, the speed loop PI parameters are obtained from the linear switchover between the two groups of PI parameters, as shown in Figure 6-2. Figure 6-2: Relationship between running frequencies and PI parameters The speed dynamic response characteristics in vector control can be adjusted by setting the proportional gain and integral time of the speed regulator.
  • Page 94 HV580L Series Frequency Inverter 0.000s ~ 0.100s Setting Range In the vector control mode, the output of the speed loop regulator is torque current reference. This parameter is used to filter the torque references. It need not be adjusted generally and can be increased in the case of large speed fluctuation.
  • Page 95 HV580L Series Frequency Inverter Excitation adjustment Default 1300 P2-14 integral gain 0 ~ 20000 Setting Range Torque adjustment Default 2000 P2-15 proportional gain 0 ~ 20000 Setting Range Torque adjustment Default 1300 integral gain P2-16 0 ~ 20000 Setting Range These are current loop PI parameters for vector control.

  • Page 96: Group P3: V/F Control Parameters

    HV580L Series Frequency Inverter These parameters are used to set field weakening control for the synchronous motor. If P2-18 is set to 0, field weakening control on the synchronous motor is disabled. In this case, the maximum rotational speed is related to the AC drive bus voltage. If the motor's maximum rotational speed cannot meet the requirements, enable the field weakening function to increase the speed.
  • Page 97 HV580L Series Frequency Inverter 10: VF complete separation. In this mode, the output frequency and output voltage of the AC drive are independent. The output frequency is determined by the frequency source, and the output voltage is determined by "Voltage source for VF separation" (P3-13). It is applicable to induction heating, inverse power supply and torque motor control.
  • Page 98 HV580L Series Frequency Inverter Figure 6-3 Manual torque boost Multi-point VF frequency Default 0.00Hz P3-03 0.00Hz ~ P3-05 Setting Range Multi-point VF voltage V1 Default 0.0% P3-04 0.0% ~ 100.0% Setting Range Multi-point VF frequency Default 0.00Hz P3-05 P3-03 ~ P3-07 Setting Range Multi-point VF voltage V2 Default 0.0%...
  • Page 99 HV580L Series Frequency Inverter over current protection of the AC drive. Figure 6-4 Setting of multi-point VF curve VF slip compensation Default 0.0% P3-09 gain 0% ~ 200.0% Setting Range This parameter is valid only for the asynchronous motor. It can compensate the rotational speed slip of the asynchronous motor when the load of the motor increases, stabilizing the motor speed in case of load change.
  • Page 100 HV580L Series Frequency Inverter VF oscillation Default Model dependent P3-11 suppression gain 0 ~ 100 Setting Range Set this parameter to a value as small as possible in the prerequisite of efficient oscillation suppression to avoid influence on VF control. Set this parameter to 0 if the motor has no oscillation.
  • Page 101 HV580L Series Frequency Inverter Pulse setting specification: voltage range 9–30 V, frequency range 0–100 kHz 5: Multi-reference If the voltage source is multi-reference, parameters in group P4 and PC must be set to determine the corresponding relationship between setting signal and setting voltage. 6: Simple PLC If the voltage source is simple PLC mode, parameters in group PC must be set to determine the setting output voltage.

  • Page 102: Group P4: Input Terminals

    HV580L Series Frequency Inverter Figure 6-5 Voltage of V/F separation Group P4: Input Terminals The HV580L provides five DI terminals (X5 can be used for high-speed pulse input) and two analog input (AI) terminals. The optional extension card provides another five DI terminals (X6 to X10) and an AI terminal (AI3). Multi-function input/output expansion card has five multi-function digital input terminals (X6 ~ X10), one analog input (VS2).
  • Page 103 HV580L Series Frequency Inverter The terminal determines three-line control of the AC drive. For Three-line control details, see the description of P4-11. Forward JOG(FJOG) FJOG indicates forward JOG running, while RJOG indicates reverse JOG running. The JOG frequency, acceleration time and Reverse JOG(RJOG)...
  • Page 104 HV580L Series Frequency Inverter description of P9-47. Value Function Description Multi-reference terminal 1 The setting of 16 speeds or 16 other references can be Multi-reference terminal 2 implemented through combinations of 16 states of these four Multi-reference terminal 3 terminals. For more details, see appendix 1. Multi-reference terminal 4 Terminal 1 for acceleration/deceleration...
  • Page 105 HV580L Series Frequency Inverter The terminal is used to restore the original status of PLC control PLC pause for the AC drive when PLC control is started again after a pause. Swing pause The AC drive outputs the central frequency, and the swing frequency function pauses.
  • Page 106 HV580L Series Frequency Inverter Switchover between main After this terminal becomes ON, the frequency source X is frequency source X and replaced by the preset frequency set in P0-08. preset frequency Value Function Description Switchover between After this terminal is enabled, the frequency source Y is replaced auxiliary frequency source by the preset frequency set in P0-08.
  • Page 107 HV580L Series Frequency Inverter When this terminal becomes ON, the AC drive's current running Clear the current running time is cleared. This function must be supported by P8-42 and time P8-53. Appendix 1: State combinations of the four multi-reference terminals The four multi-reference terminals have 16 state combinations, corresponding to 16 reference values, as listed in the following table: Corresponding...
  • Page 108 HV580L Series Frequency Inverter Acceleration/Deceleration time 3 P8-05、P8-06 Acceleration/Deceleration time 4 P8-07、P8-08 Appendix 3: State combinations of two motor selection terminals Terminal 2 Terminal 1 Selected Motor Corresponding Parameters Motor 1 Group P1, P2 Motor 2 Group A2 Motor 3 Group A3 Motor 4 Group A4...
  • Page 109 HV580L Series Frequency Inverter Figure 6-6 Setting of two-line mode 1 1: Two-line mode 2 In this mode, X1 is RUN enabled terminal, and X2 determines the running direction. The parameters are set as below: Function Code Parameter Name Value Function Description P4-11 Terminal command mode 1...
  • Page 110 HV580L Series Frequency Inverter P4-00 X1 function selection Forward RUN (FWD) P4-01 X2 function selection Reverse RUN (REV) P4-02 X3 function selection Three-line control Figure 6-8 Setting of three-line mode 1 As shown in the preceding figure, if SB1 is ON, the AC drive instructs forward rotation when SB2 is pressed to be ON and instructs reverse rotation when SB3 is pressed to be ON.
  • Page 111 HV580L Series Frequency Inverter Figure 6-9 Setting of three-line mode 2 As shown in the preceding figure, if SB1 is ON, the AC drive starts running when SB2 is pressed to be ON; the AC drive instructs forward rotation when K is OFF and instructs reverse rotation when K is ON. The AC drive stops immediately after SB1 becomes OFF.
  • Page 112 HV580L Series Frequency Inverter VS curve 1 maximum input Default 10.00V P4-15 P4-13 ~ 10.00V Setting Range Corresponding setting of VS Default 100.0% curve 1 maximum input P4-16 -100.00% ~ 100.0% Setting Range VS1 filter time Default 0.10s P4-17 0.00s ~ 10.00s Setting Range These parameters are used to define the relationship between the analog input voltage and the corresponding setting.
  • Page 113 HV580L Series Frequency Inverter Figure 6-10 Corresponding relationship between analog input and set values AS curve minimum input Default 0.00V P4-18 0.00V ~ P4-20 Setting Range Corresponding setting of AS Default 0.0% curve minimum input P4-19 -100.00% ~ 100.0% Setting Range AS curve maximum input Default 10.00V...
  • Page 114 HV580L Series Frequency Inverter The method of setting AS functions is similar to that of setting VS1 function. VS curve 2 minimum input Default 0.00V P4-23 0.00s ~ P4-25 Setting Range Corresponding setting of VS Default 0.0% curve 2 minimum input P4-24 -100.00% ~...
  • Page 115 HV580L Series Frequency Inverter These parameters are used to set the relationship between X5 pulse input and corresponding settings. The pulses can only be input by X5. The method of setting this function is similar to that of setting VS 1function. VS curve selection Default Unit's digit...

  • Page 116: Group P5: Output Terminals

    HV580L Series Frequency Inverter X2 delay time Default 0.0s P4-36 0.0s ~ 3600.0s Setting Range X3 delay time Default 0.0s P4-37 0.0s ~ 3600.0s Setting Range These parameters are used to set the delay time of the AC drive when the status of X terminals changes. Currently, only X1, X2 and X3 support the delay time function.
  • Page 117 HV580L Series Frequency Inverter Y2 terminal output mode Default P5-00 Pulse output (Y2P) Setting Range Switch signal output (Y2R) The Y2 terminal is programmable multiplexing terminal. It can be used for high-speed pulse output (Y2P), with maximum frequency of 100 kHz. Refer to P5-06 for relevant functions of Y2P. It can also be used as open collector switch signal output (Y2R).
  • Page 118 HV580L Series Frequency Inverter The AC drive judges whether the motor load exceeds the overload pre-warning threshold before performing the Motor overload protection action. If the pre-warning threshold is pre-warning exceeded, the terminal becomes ON. For motor overload parameters, see the descriptions of P9-00 to P9-02. AC drive overload The terminal becomes ON 10s before the AC drive pre-warning...
  • Page 119 HV580L Series Frequency Inverter If the AC drive main circuit and control circuit become Ready for RUN stable, and the AC drive detects no fault and is ready for RUN, the terminal becomes ON. When the input of AI1 is larger than the input of AI2, the VS>AS terminal becomes ON.
  • Page 120 HV580L Series Frequency Inverter If the AC drive is in the reverse running state, the terminal Reverse running becomes ON. Zero current state Refer to the descriptions of P8-28 and P8-29. If the heatsink temperature of the inverter module (P7-07) Module temperature reaches the set module temperature threshold (P8-47), reached...
  • Page 121 HV580L Series Frequency Inverter 0V ~ 10V 0V ~ 10V (Or 0 ~ 20mA) 0V ~ 10V 0 ~maximum set length Length 0 ~maximum count value Count value 0.0% ~ 100.0% Communication setting 0 ~ rotational speed corresponding to maximum Motor rotational speed output frequency 0.0A ~...

  • Page 122: Group P6 Start/Stop Control

    HV580L Series Frequency Inverter Y1 output delay time Default 0.0s P5-20 0.0s ~ 3600.0s Setting Range DO2 output delay time Default 0.0s P5-21 0.0s ~ 3600.0s Setting Range These parameters are used to set the delay time of output terminals Y2R, relay 1, relay 2, Y1 and DO2 from status change to actual output.
  • Page 123 HV580L Series Frequency Inverter It is valid only for asynchronous motor and used for building the magnetic field before the motor runs. For pre-excited current and pre-excited time, see parameters of P6-05 and P6-06. – If the pre-excited time is 0, the AC drive cancels pre-excitation and starts to run at startup frequency. –...
  • Page 124 HV580L Series Frequency Inverter P6-03 = 5.00Hz The startup frequency is 5.00 Hz. P6-04 = 2.0s The startup frequency holding time is 2.0s. In this example, the AC drive stays in the standby state and the output frequency is 0.00 Hz. Example 2:...
  • Page 125 HV580L Series Frequency Inverter In this curve, the rated motor frequency fb is always the inflexion point. This mode is usually used in applications where acceleration/deceleration is required at the speed higher than the rated frequency. When the set frequency is higher than the rated frequency, the acceleration/deceleration time is: In the formula, f is the set frequency, fb is the rated motor frequency and T is the acceleration time from 0 Hz to fb.
  • Page 126 HV580L Series Frequency Inverter These two parameters respectively define the time proportions of the start segment and the end segment of S-curve acceleration/deceleration. They must satisfy the requirement: P6-08 + P6-09 ≤ 100.0%. In Figure 6-11, t1 is the time defined in P6-08, within which the slope of the output frequency change increases gradually.

  • Page 127: Group P7 Operation Panel And Display

    HV580L Series Frequency Inverter rated AC drive current. P6-14 (Stop DC braking time) This parameter specifies the holding time of DC braking. If it is set to 0, DC braking is cancelled. Figure 6-13 Stop DC braking process Brake use ratio Default 100% P6-15...
  • Page 128 HV580L Series Frequency Inverter Switchover between forward rotation Forward JOG and reverse rotation Reverse JOG MF key refers to multifunctional key. You can set the function of the MF key by using this parameter. You can perform switchover by using this key both in stop or running state. 0: MF key disabled 1: Switchover between operation panel control and remote command control (terminal or communication).
  • Page 129 HV580L Series Frequency Inverter LED display running parameters 2 Default Setting 0000~ P7-04 Range FFFF If a parameter needs to be displayed during the running, set the corresponding bit to 1, and set P7-03 to the hexadecimal equivalent of this binary number. These two parameters are used to set the parameters that can be viewed when the AC drive is in the running state.
  • Page 130 HV580L Series Frequency Inverter If a parameter needs to be displayed during the running, set the corresponding bit to 1, and set P7-05 to the hexadecimal equivalent of this binary number. Load speed display coefficient Default 1.0000 P7-06 0.0001 ~ 6.5000 Setting Range This parameter is used to adjust the relationship between the output frequency of the AC drive and the load speed.

  • Page 131: Group P8 Auxiliary Functions

    HV580L Series Frequency Inverter If the AC drive is in the stop state, the load speed is the speed corresponding to the set frequency, namely, "set load speed". If the set frequency is 50.00 Hz, the load speed in the stop state is 50.00 x 2.000 = 100.00 (display of 2 decimal places).
  • Page 132 HV580L Series Frequency Inverter over between the four groups of acceleration/deceleration time through different state combinations of X terminals. For more details, see the descriptions of P4-01 to P4-05. Jump frequency 1 Default 0.00Hz P8-09 0.00Hz ~maximum frequency Setting Range Jump frequency 2 Default 0.00Hz...
  • Page 133 HV580L Series Frequency Inverter Figure 6-15 Forward/Reverse rotation dead-zone time Reverse control Default P8-13 Enabled Setting Range Disabled It is used to set whether the AC drive allows reverse rotation. In the applications where reverse rotation is prohibited, set this parameter to 1. Running mode when set frequency lower Default than frequency lower limit...
  • Page 134 HV580L Series Frequency Inverter when the actual accumulative power-on time reaches the threshold of 100 hours, perform the setting as follows: 1) Set virtual X1 to user-defined fault 1: A1-00 = 44. 2) Set that the valid state of virtual X1 is from virtual DO1: A1-05 = 0000. 3) Set virtual DO1 to power-on time reached: A1-11= 24.
  • Page 135 HV580L Series Frequency Inverter Figure 6-16 FDT level Detection range of frequency reached Default 0.0% P8-21 0.00 ~ 100%( maximum frequency ) Setting Range If the AC drive running frequency is within the certain range of the set frequency, the corresponding DO terminal becomes ON.
  • Page 136 HV580L Series Frequency Inverter Figure 6-17 Detection range of frequency reached Jump frequency during Default P8-22 acceleration/deceleration Setting Range 0: Disabled; 1: Enabled It is used to set whether the jump frequencies are valid during acceleration/deceleration. When the jump frequencies are valid during acceleration/deceleration, and the running frequency is within the frequency jump range, the actual running frequency will jump over the set frequency jump amplitude (rise directly from the lowest jump frequency to the highest jump frequency).
  • Page 137 HV580L Series Frequency Inverter Figure 6-19 Acceleration/deceleration time switchovers During acceleration, if the running frequency is smaller than the value of P8-25, acceleration time 2 is selected. If the running frequency is larger than the value of P8-25, acceleration time 1 is selected. During deceleration, if the running frequency is larger than the value of P8-26, deceleration time 1 is selected.
  • Page 138 HV580L Series Frequency Inverter If the output frequency of the AC drive is within the positive and negative amplitudes of the any frequency reaching detection value, the corresponding DO becomes ON. The HV580L provides two groups of any frequency reaching detection parameters, including frequency detection value and detection amplitude, as shown in the following figure.
  • Page 139 HV580L Series Frequency Inverter Output overcurrent threshold Default 200.0% 0.0%( no detection );0.1% ~ 300.0% (rated motor P8-36 Setting Range current) Output overcurrent detection Default 0.00s P8-37 delay time 0.00s ~ 600.00s Setting Range If the output current of the AC drive is equal to or higher than the overcurrent threshold and the duration exceeds the detection delay time, the corresponding DO becomes ON.
  • Page 140 HV580L Series Frequency Inverter If the output current of the AC drive is within the positive and negative amplitudes of any current reaching detection value, the corresponding DO becomes ON. The HV580L provides two groups of any current reaching detection parameters, including current detection value and detection amplitudes, as shown in the following figure.
  • Page 141 HV580L Series Frequency Inverter When the VS input is larger than the value of P8-46 or smaller than the value of P8-45, the corresponding DO becomes ON, indicating that VS input exceeds the limit. Module temperature threshold Default 75℃ P8-47 0.00V ~...

  • Page 142: Group P9 Fault And Protection

    HV580L Series Frequency Inverter Current running time reached Default 0.0Min P8-53 0.0Min ~ 6500.0Min Setting Range If the current running time reaches the value set in this parameter, the corresponding DO becomes ON, indicating that the current running time is reached. Group P9 Fault and Protection Motor overload protection selection Default...
  • Page 143 HV580L Series Frequency Inverter Overvoltage stall gain Default P9-03 Setting Range 0 (no stall overvoltage)~ 100 Overvoltage stall protective voltage Default 130% P9-04 120% ~ 150% Setting Range When the DC bus voltage exceeds the value of P9-04 (Overvoltage stall protective voltage) during deceleration of the AC drive, the AC drive stops deceleration and keeps the present running frequency.
  • Page 144 HV580L Series Frequency Inverter Fault auto reset times Default P9-09 0 ~ 20 Setting Range It is used to set the times of fault auto resets if this function is used. After the value is exceeded, the AC drive will remain in the fault state. DO action during fault auto reset Default P9-10...
  • Page 145 HV580L Series Frequency Inverter It displays the bus voltage when the latest fault Occurs. P9-19 Bus voltage upon 3rd fault It displays the status of all DI terminals when the latest fault occurs. The sequence is as follows: P9-20 Digital Input status upon 3rd fault If the X terminal is ON, the setting is 1.
  • Page 146 HV580L Series Frequency Inverter P9-34 Bus voltage upon 2nd fault P9-37 X terminal status upon 1st fault P9-38 Current upon 1st fault P9-39 Bus voltage upon 3rd fault P9-40 X terminal status upon 1st fault P9-41 Output terminal status Same as P9-17 ~ P9-24 upon 1st fault P9-42 AC Drive status upon 1...
  • Page 147 HV580L Series Frequency Inverter Switch over to V/F control, continue to run Ten's digit EEPROM read-write fault (Err21) Coast to stop Stop according to the stop mode Hundred's digit Reserved Motor overheat (Err25) Thousand's digit Same as unit's digit in P9-47 Accumulative running time reached (Err26) Same Ten thousand's digit as unit's digit in P9-47...
  • Page 148 HV580L Series Frequency Inverter Fault protection action selection 4 Default 00000 Too large speed deviation, (Err42) Unit's digit Same as unit's digit in P9-47 Motor over-speed (Err43) Ten's digit Same as unit's digit in P9-47 P9-50 Setting Range Initial position fault (Err51) Hundred's digit Same as unit's digit in P9-47 Speed feedback fault (Err52)
  • Page 149 HV580L Series Frequency Inverter Type of motor temperature sensor Default P9-56 No temperature sensor Setting Range PT100 PT1000 Motor overheat protection threshold Default 110℃ P9-57 Setting Range 0℃~ 200℃ Motor overheat warning threshold Default 90℃ P9-58 Setting Range 0℃~ 200℃ The signal of the motor temperature sensor needs to be connected to the optional I/O extension card.
  • Page 150 HV580L Series Frequency Inverter Action judging voltage at Default 80.0% instantaneous power failure P9-62 60.0% ~ 100.0%( standard bus voltage ) Setting Range Upon instantaneous power failure or sudden voltage dip, the DC bus voltage of the AC drive reduces. This function enables the AC drive to compensate the DC bus voltage reduction with the load feedback energy by reducing the output frequency so as to keep the AC drive running continuously.
  • Page 151 HV580L Series Frequency Inverter Protection upon load becoming 0 Default P9-63 Disabled Setting Range Enabled Detection level of load becoming 0 Default 10.0% P9-64 0.0% ~ 100.0% (rated motor current) Setting Range Detection time of load becoming 0 Default 1.0s P9-65 0.0s ~...

  • Page 152: Group Pa: Process Control Pid Function

    HV580L Series Frequency Inverter Group PA: Process Control PID Function PID control is a general process control method. By performing proportional, integral and differential operations on the difference between the feedback signal and the target signal, it adjusts the output frequency and constitutes a feedback system to stabilize the controlled counter around the target value.
  • Page 153 HV580L Series Frequency Inverter PID Feedback source Default VS - AS PA-02 Setting range PULSE Pulse ( X5 ) Communication VS+AS MAX(|VS|,|AS|) MIN (|VS|,|AS|) This parameter is used to select the feedback signal channel of process PID. The PID feedback is a relative value and ranges from 0.0% to 100.0%. PID action direction Default PA-03...
  • Page 154 HV580L Series Frequency Inverter 0.00 ~ 10.000 Setting range PA-05 (Proportional gain Kp1) It decides the regulating intensity of the PID regulator. The higher the Kp1 is, the larger the regulating intensity is. The value 100.0 indicates when the deviation between PID feedback and PID setting is 100.0%, the adjustment amplitude of the PID regulator on the output frequency reference is the maximum frequency.
  • Page 155 HV580L Series Frequency Inverter The PID setting change time indicates the time required for PID setting changing from 0.0% to 100.0%. The PID setting changes linearly according to the change time, reducing the impact caused by sudden setting change on the system. PID feedback filter time Default 0.00s...
  • Page 156 HV580L Series Frequency Inverter switchover". If the DI is OFF, group 1 (PA-05 to PA-07) is selected. If the DI is ON, group 2 (PA-15 to PA-17) is selected. If you select automatic switchover, when the absolute value of the deviation between PID feedback and PID setting is smaller than the value of PA-19, group 1 is selected.
  • Page 157 HV580L Series Frequency Inverter Figure 6-27 PID initial value function Maximum deviation between Default 1.00% two PID outputs in forward PA-23 direction 0.00% ~ 100.00% Setting range Maximum deviation between Default 1.00% two PID outputs in reverse PA-24 direction 0.00% ~ 100.00% Setting range This function is used to limit the deviation between two PID outputs (2 ms per PID output) to suppress the rapid change of PID output and stabilize the running of the AC drive.

  • Page 158: Group Pb: Swing Frequency, Fixed Length And Count

    HV580L Series Frequency Inverter • Integral separated If it is set to valid, , the PID integral operation stops when the DI allocated with function 38 "PID integral pause" is ON In this case, only proportional and differential operations take effect. If it is set to invalid, integral separated remains invalid no matter whether the DI allocated with function 38 "PID integral pause"...
  • Page 159 HV580L Series Frequency Inverter Figure 6-28 Swing frequency control Swing frequency Default setting mode PB-00 Relative to the central frequency Setting range Relative to the maximum frequency This parameter is used to select the base value of the swing amplitude. •...
  • Page 160 HV580L Series Frequency Inverter P0-10 (Maximum frequency) multiplied by PB-01. Jump frequency = Swing amplitude AW x PB-02 (Jump frequency amplitude). • If relative to the central frequency (PB-00 = 0), the jump frequency is a variable value. • If relative to the maximum frequency (PB-00 = 1), the jump frequency is a fixed value. The swing frequency is limited by the frequency upper limit and frequency lower limit.

  • Page 161: Group Pc: Multi-Reference And Simple Plc Function

    HV580L Series Frequency Inverter The count value needs to be collected by DI terminal. Allocate the corresponding DI terminal with function 25 (Counter input) in applications. If the pulse frequency is high, X5 must be used. When the count value reaches the set count value (PB-08), the DO terminal allocated with function 8 (Set count value reached) becomes ON.
  • Page 162 HV580L Series Frequency Inverter Multi-reference 7 Default 0.0% PC-07 -100.0% ~ 100.0% Setting range Multi-reference 8 Default 0.0% PC-08 -100.0% ~ 100.0% Setting range Multi-reference 9 Default 0.0% PC-09 -100.0% ~ 100.0% Setting range Multi-reference 10 Default 0.0Hz PC-10 -100.0% ~ 100.0% Setting range Multi-reference 11 Default...
  • Page 163 HV580L Series Frequency Inverter stop command. Simple PLC can be either the frequency source or V/F separated voltage source. When simple PLC is used as the frequency source, whether parameter values of PC-00 to PC-15 are positive or negative determines the running direction. If the parameter values are negative, it indicates that the AC drive runs in reverse direction.
  • Page 164 HV580L Series Frequency Inverter upon stop and will continue to run from the recorded moment after it starts up again. If the ten's digit is set to 0, the AC drive restarts the PLC process after it starts up again. Running time of simple PLC Default 0.0s(h)
  • Page 165 HV580L Series Frequency Inverter 0.0s(h) ~ 6553.5s(h) Setting range Acceleration/deceleration time of Default PC-29 simple PLC reference 5 0 ~ 3 Setting range Running time of simple PLC Default 0.0s(h) PC-30 reference 6 0.0s(h) ~ 6553.5s(h) Setting range Acceleration/deceleration time of Default PC-31 simple PLC reference 6...
  • Page 166 HV580L Series Frequency Inverter Acceleration/deceleration time of Default PC-39 simple PLC reference 10 0 ~ 3 Setting range Running time of simple PLC Default 0.0s(h) reference 11 PC-40 0.0s(h) ~ 6553.5s(h) Setting range Acceleration/deceleration time of Default PC-41 simple PLC reference 11 0 ~...

  • Page 167: Group Pd: Communication Parameters

    HV580L Series Frequency Inverter 0 ~ 3 Setting range Time unit of simple PLC running Default PC-50 Setting range S (Second) H (Hours) Reference 0 source Default Set by PC-OO PC-51 Setting range PULSE Pulse Set by preset frequency (P0-08), It determines the setting channel of reference 0.
  • Page 168 HV580L Series Frequency Inverter 1: Restore default settings except motor parameters If PP-01 is set to 1, most function codes are restored to the default settings except motor parameters, frequency reference resolution (P0-22), fault records, accumulative running time (P7-09), accumulative power-on time (P7-13) and accumulative power consumption (P7-14).

  • Page 169: Group A0: Torque Control And Restricting Parameters

    HV580L Series Frequency Inverter Parameter Name Description Display function codes of the AC drive in sequence of P0 to PF, AC drive parameter display A0 to AF and C Group. User-defined parameter display Display a maximum of 32 user-defined parameters included in group PE.
  • Page 170 HV580L Series Frequency Inverter The HV580L provides DI terminals with two torque related functions, function 29 (Torque control prohibited) and function 46 (Speed control/Torque control switchover). The two DI terminals need to be used together with A0-00 to implement speed control/torque control switchover. If the DI terminal allocated with function 46 (Speed control/Torque control switchover) is OFF, the control mode is determined by A0-00.

  • Page 171: Group C Monitor

    HV580L Series Frequency Inverter Two parameters are used to set the maximum frequency in forward or reverse rotation in torque control mode. In torque control, if the load torque is smaller than the motor output torque, the motor's rotational speed will rise continuously.
  • Page 172 HV580L Series Frequency Inverter Function code Name Smallest unit Address C-00 Running frequency (Hz) 0.01Hz 7000H C-01 Set frequency (Hz) 0.01Hz 7001H C-02 Bus voltage (V) 0.1V 7002H C-03 Output voltage (V) 7003H C-04 Output current (A) 0.01A 7004H C-05 Output power (kW) 0.1kW 7005H...
  • Page 173 HV580L Series Frequency Inverter C-37 Power factor angle 0.1° 7025H C-38 ABZ position 7026H C-39 Target voltage upon V/F separation 7027H C-40 Output voltage upon V/F separation 7028H C-41 X state visual display 7029H C-42 DO state visual display 702AH C-43 X function state visual display 1 (function 01-40) 702BH...

  • Page 174: Chapter 7 Maintenance And Troubleshooting

    HV580L Series Frequency Inverter Chapter 7 Maintenance and Troubleshooting 7.1 Routine Repair and Maintenance of the HV580L 7.1.1 Routine Maintenance The influence of the ambient temperature, humidity, dust and vibration will cause the aging of the devices in the AC drive, which may cause potential faults or reduce the service life of the AC drive. Therefore, it is necessary to carry out routine and periodic maintenance.

  • Page 175: Warranty Agreement

    1) Free warranty only applies to the AC drive itself. 2) HNC Electric will provide 18-month warranty (starting from the leave-factory date as indicated on the barcode) for the failure or damage under normal use conditions. If the equipment has been used for over 18 months, reasonable repair expenses will be charged.

  • Page 176: Faults And Solutions

    HV580L Series Frequency Inverter 4) The maintenance fee is charged according to HNC Electric's uniform standard. If there is an agreement, the agreement prevails. 7.3 Faults and Solutions The HV580L provides a total of 24 pieces of fault information and protective functions. After a fault occurs, the AC drive implements the protection function, and displays the fault code on the operation panel (if the operation panel is available).
  • Page 177 HV580L Series Frequency Inverter 1: The output circuit is grounded or short 1: Eliminate external faults. circuited. 2: Install a reactor or an output filter. 2: The connecting cable of the motor is too long. 3: Check the air filter and the Inverter unit cooling fan.
  • Page 178 HV580L Series Frequency Inverter 1: Eliminate external faults. 1: The output circuit is grounded or short circuited. 2: Perform the motor auto-tuning. 2: Motor auto-tuning is not performed. 3: Increase the deceleration time. 3: The deceleration time is too short. Overcurrent during 4: Adjust the voltage to normal Err03...
  • Page 179 HV580L Series Frequency Inverter 1: Adjust the voltage to normal 1: The input voltage is too high. Overvoltage at range. Err07 2: An external force drives the motor during constant speed 2: Cancel the external force or deceleration. install the braking resistor. Control power The input voltage is not within the allowable Adjust the input voltage to the...
  • Page 180 HV580L Series Frequency Inverter 1: The cable connecting the AC drive and 1: Eliminate external faults. the motor is faulty. 2: Check whether the motor Power output 2: The AC drive's three-phase outputs are Err13 three-phase winding is normal. phase loss unbalanced when the motor is running.
  • Page 181 HV580L Series Frequency Inverter 1: Set the motor parameters 1: The motor parameters are not set according to the nameplate Motor auto-tuning Err19 according to the nameplate. properly. fault 2: The motor auto-tuning times out. 2: Check the cable connecting the AC drive and the motor.
  • Page 182 HV580L Series Frequency Inverter Fault Name Display Possible Causes Solutions Accumulative The accumulative power-on time reaches Clear the record through the power-on time Err29 the setting value. parameter initialization function reached Check that the load is The AC drive running current is lower than Load becoming 0 Err30 disconnected or the setting of P9-64.
  • Page 183 HV580L Series Frequency Inverter Fault Name Display Possible Causes Solutions 1: Check the temperature sensor cabling and eliminate the cabling 1: The cabling of the temperature sensor fault. Motor overheat Err45 becomes loose. 2: Lower the carrier frequency or 2: The motor temperature is too high. adopt other heat radiation measures.

  • Page 184: Common Faults And Solutions

    HV580L Series Frequency Inverter 7.4 Common Faults and Solutions You may come across the following faults during the use of the AC drive. Refer to the following table for simple fault analysis. Table 7-2 Troubleshooting to common faults of the AC drive Fault Possible Causes Solutions...
  • Page 185 HV580L Series Frequency Inverter 1: Measure the insulation of the 1: The motor or the motor output motor and the output cable with a ―Err23‖ is displayed cable is short-circuited to the megger. at power-on. ground. 2: Contact the agent or HNC 2: The AC drive is damaged.
  • Page 186 HV580L Series Frequency Inverter 1: Check and reset the parameters 1: The parameters are set in group P4. incorrectly. 2: Re-connect the external signal The DI terminals are 2: The external signal is incorrect. cables. disabled. 3: The jumper bar across OP and 3: Re-confirm the jumper bar +24 V becomes loose.
  • Page 187 HV580L Series Frequency Inverter 1: Check whether the contactor cable is loose. 2: Check whether the contactor is Err17 is reported The soft startup contactor is not faulty. upon power-on or picked up. 3: Check whether 24 V power running. supply of the contactor is faulty.

  • Page 188: Appendix A:rs-485 Communication Expansion Card Instruction

    HV580L Series Frequency Inverter Appendix A: RS-485communication expansion card instruction A.1 Overview: Especially for HV580L series frequency inverter RS485 communication, with separate solution, all specifications are in accordance with international standard. A.2 Installation dimension and control terminals details: 1. Dimensions are as below;...

  • Page 189: Appendixb:hv580L Modbus Communication

    HV580L Series Frequency Inverter Appendix A: Figure1 RS485 Installation way Appendix A: Figure 2 RS485 dimension Terminal blocks Terminal Function: Type Sign Terminal Terminal Function 485+/485- Communication port 485 communication input terminal, 485 communication Terminal separate input (CN1) CGND 485 communication Power is separate Jumper description:...
  • Page 190 HV580L Series Frequency Inverter Application mode: The inverter accessing with ―single main multi-slave‖ PC/PLC control network, which equipped with RS232/RS485 bus. Bus structure: (1)Interface mode RS232/RS485 hardware interface (2)Transmission mode Asynchronous serial, half-duplex transmission. At the same time host and slave computer can only permit one to send data while the other can only receive data.
  • Page 191 HV580L Series Frequency Inverter Command code CMD 03H: Read slave parameters; 06H: Write slave parameters 08H: Loop since detection Function code parameter address, function code DATA parameter number, function code parameter value, etc. CRC CHK low order Detection value: CRC value CRC CHK high order At least 3.5-character time In the RTU mode, a new frame to at least 3.5 bytes transmission time interval as a start.
  • Page 192 HV580L Series Frequency Inverter Register number high order Register number low order CRC CHK low order CRC CHK values to be calculated CRC CHK high order RTU salve response PD-05 set ―0‖: Byte number high order Byte number low order Data P002H high order Data P002H low order Data P003H high order...
  • Page 193 HV580L Series Frequency Inverter Data address high order Data address low order Data content high order Data content low order CRC CHK low order CRC CHK values to be calculated CRC CHK high order RTU salve response Data address high order Data address low order Data content high order Data content low order...
  • Page 194 HV580L Series Frequency Inverter preset, fixed value. If the LSB is 0, no exclusive XOR takes place. This process is repeated until 8 shifts have been performed. After the last (8) shift, the next eight-bit byte is exclusive XOR with the register’s current value, and the process repeats for 8 more shifts as described above.
  • Page 195 HV580L Series Frequency Inverter High byte: P0~PF (P group), A0~AF (A group), 70~7F (U group) Low byte: 00~FF For example: P3.12, the address indicates 0xP30C Caution: Group PF: Parameters could not be read or be modified. Group U: Parameters could be read but not be modified. Some parameters can not be changed during operation;...
  • Page 196 HV580L Series Frequency Inverter 1008H DI input status 1018H AI3 voltage before correction 1009H DO output status 1019H Line speed 100AH AI1 voltage 101AH Current power on time 100BH AI2 voltage 101BH Current running time PULSE input pulse frequency, unit 100CH Running speed 101CH...
  • Page 197 HV580L Series Frequency Inverter Parameters lock password check: (if the return is the 8888H, it indicates the password checksum pass) Password address Contents of input password 1P00H ***** Digital output terminal control: (write-only) Command address Command content BIT0:Y1 Output Control BIT1:Y2 Output control BIT2:RELAY1 output control BIT3:RELAY2 output control...
  • Page 198 HV580L Series Frequency Inverter Inverter fault description: Inverter fault address Inverter fault information 0000:No fault 0015:Parameter read and write fault 0001:Reserved 0016:Inverter hardware fault 0002:Speed-up over current 0017:Motor earthing short-circuit 0003:Speed-down over current fault 0004:Constant speed over current 0018:Reserved 0005:Speed-up over voltage 0019:Reserved 0006:Speed-down over voltage 001A:Running time arrive fault...
  • Page 199 HV580L Series Frequency Inverter Pd group communication parameters description Baud rate Default 6005 Digital’s bit: MODBUS Baud rate 0:300BPS 5:9600BPS 1:600BPS 6:19200BPS Pd-00 Setting range 2:1200BPS 7:38400BPS 3:2400BPS 8:57600BPS 4:4800BPS 9:115200BPS This parameter is used to set the data transfer rate between the host computer and the inverter. Caution: The baud rate of the position machine and the inverter must be consistent.
  • Page 200 HV580L Series Frequency Inverter Communication overtime Default 0.0 s Pd-04 Setting range 0.0 s (invalid); 0.1~60.0s When the function set to 0.0s, the communication overtime parameter is invalid. When the function code is set to valid value, if the interval time between one communication with the next communication exceeded the communications overtime, the system will report communication fault error (fault serial 16= E.CoF1) .

  • Page 201: Warranty Agreement

    5. The Product Warranty Card is not re-issued. Please keep the card and present it to the maintenance personnel when asking for maintenance. 6. If there is any problem during the service, contact HNC Electric’s agent or HNC Electric directly.
  • Page 202 Version: 3.1.14 Thanks for choosing HNC product. Any technique support, PLS feel free to contact our support team Tel: 86(20)84898493 Fax: 86(20)61082610 URL: www.hncelectric.com Email: support@hncelectric.com...

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