Lifasa SV030iH-2U Manual

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WARNING

Electrical Shock Prevention

Do not remove the front cover when input power

is applied. Doing so can result in electric shock.

Do not operate the inverter with the front cover

removed. Electric shock can occur due to the

exposed high voltage terminals and capacitor.

Do not remove the cover except for routine

inspections or wiring, even if the input power is

not applied. The capacitor will remain charged

for a long time even when the power is not

applied.

Wiring and routine checkups should be

performed 10 minutes after disconnecting the

input power and after checking to see whether

the DC voltage is discharged with a tester.

(Below DC 30V)

Do not use a higher grounding method than the

Type 3 grounding method.

Only authorized personnel may perform wiring

and inspections.

Wire the inverter after the inverter installation.

Do not operate the switches with wet hands.

Doing so may result in electrical shock.

Electrical shock may occur if the cable insulation

is damaged. Insure proper mounting of

equipment to minimize excess stress on power

cables.

CAUTION

Fire Prevention

Install the inverter on a non-combustible surface.

Installing the inverter on or near combustible

materials can result in fire.

Disconnect the inverter when the inverter is

damaged. Failure to do so could lead to a

secondary accident and fire.

Do not connect a resistance directly between the

DC terminals P. N. Doing so can result in fire.

Damage Prevention

Do not apply voltages higher than the values

specified in this manual to the terminals. Doing

so can damage the inverter.

Incorrect terminal connection may damage the

inverter.

Incorrectly connecting the polarity (+/-) of the

terminals can damage the inverter.

After disconnecting, the inverter may still be hot.

Use caution to prevent the possibility of personal

injury.

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Summary of Contents for Lifasa SV030iH-2U

Page 1 WARNING CAUTION Electrical Shock Prevention Fire Prevention Do not remove the front cover when input power Install the inverter on a non-combustible surface. is applied. Doing so can result in electric shock. Installing the inverter on or near combustible materials can result in fire. Do not operate the inverter with the front cover removed.
Page 2 5. Do not modify or alter anything inside inverter. Other Important Precautions 6. CAUTION: Motor might not be protected by electronic thermal function of inverter. Pay attention to the following items. Failure to do so 7. Install noise filter to minimize potential noise can result in damage of inverter and/or electrical interference on equipment installed near shock.
Page 3: Table Of Contents
Table of Contents USER SELECTION GUIDE (iH SPECIFICATIONS) ................3 CHAPTER 1 - INSTALLATION ......................6 Inspection ..........................6 Environmental Conditions ....................6 Mounting ..........................6 Other Precautions ........................ 7 Dimensions .......................... 8 Basic Wiring ........................12 Power Terminals ........................ 13 Control Terminals.......................
Page 4 APPENDIX A - FUNCTIONS BASED ON USE................90 APPENDIX B - PARAMETERS BASED ON APPLICATION ............91 DECLARATION OF CONFORMITY....................92...
Page 5: User Selection Guide (Ih Specifications)
USER SELECTION GUIDE (iH SPECIFICATIONS) 200~230V Class (40 - 75HP) Model Number SV030iH-2U SV037iH-2U SV045iH-2U SV055iH-2U Motor Constant Torque [HP] Rating Constant Torque [kW] Output Constant Torque [kVA] Ratings Constant Torque FLA [A] Input Input Voltage 3 Phase, 200 to 230 V (± 10%)
Page 6 440~460V Class (40 - 100HP) Model Number SV030iH-4U SV037iH-4U SV045iH-4U SV055iH-4U SV075iH-4U Constant Torque [HP] Motor Constant Torque [kW] Rating Variable Torque [HP] Variable Torque [kW] Constant Torque FLA [A] Output Constant Torque [kVA] Ratings Variable Torque FLA [A] Variable Torque [kVA] Input Input Voltage 3 Phase, 440 to 460 V (±...
Page 7 All Models Max. Frequency 0.5 to 400 Hz Output Ratings Output Voltage 3 Phase, 0 to Input Voltage Control Method Space Vector PWM Frequency Setting Digital Reference: 0.01 Hz (Below 100Hz), 0.1 Hz (Over 100Hz) Resolution Analog Reference: 0.03 Hz / 60Hz Digital: 0.01% of Maximum Output Frequency Frequency Accuracy Analog: 0.1% of Maximum Output Frequency...
Page 8: Chapter 1 - Installation
CHAPTER 1 - INSTALLATION 1.1 Inspection ü Inspect the inverter for any damage that may have occurred during shipping. ü Check the nameplate on the inverter. Verify the inverter unit is the correct one for the application. The numbering system for the inverter is as shown below. (380V) LG Inverter Motor Capacity...
Page 9: Other Precautions
Chapter 1 - Installation 1.4 Other Precautions ü Do not carry the inverter by the front cover. ü Do not install the inverter in a location where excessive vibration is present. Be cautious when installing on presses or moving equipment. ü...
Page 10: Dimensions
Chapter 1 - Installation 1.5 Dimensions 1.5.1 200V ~ 230V Class Unit: mm (inch) VARIABLE FREQUENCY DRIVE SV030iH-2U SV037iH-2U VARIABLE FREQUENCY DRIVE SV045iH-2U SV055iH-2U...
Page 11 Chapter 1 - Installation 1.5.2 380V ~ 460V Class VARIABLE FREQUENCY DRIVE SV030iH-4U SV037iH-4U STARVERT-IH STARVERT-iH CAUTION Read the manual and follow the safety instructions before installation or operation. Do not connect the power supply to the drive output terminals (U,V,W). Before opening the cover, disconnect all power and wait at least 3 minutes until DC bus capacitors discharge.
Page 12 Chapter 1 - Installation VARIABLE FREQUENCY DRIVE SV090iH-4U SV110iH-4U STARVERT-IH STARVERT-iH VARIABLE FREQUENCY DRIVE SV132iH-4U SV160iH-4U STARVERT-IH STARVERT-iH...
Page 13 Chapter 1 - Installation VARIABLE FREQUENCY DRIVE SV132iH-4U SV160iH-4U STARVERT-IH STARVERT-iH...
Page 14: Basic Wiring
Chapter 1 - Installation 1.6 Basic Wiring Dynamic Braking Unit (Optional) DB Unit(Optional) DB Resitor DC Bus Choke (Optional) N B1 B2 DC Bus Choke DB Resistor MCCB(OPTION) φ MOTOR 230/460 V 50/60 Hz G( ) G( ) Output Frequency Meter Forward Run/Stop (0~10V pulse) Reverse Run/Stop...
Page 15: Power Terminals
Chapter 1 - Installation 1.7 Power Terminals n Type A Configuration: 230V Class (SV030iH-2U, SV037iH-2U, SV045iH-2U, SV055iH-2U) n Type B Configuration: 380 ~ 460V Class (SV030iH-4U, SV037iH-4U, SV045iH-4U, SV055iH-4U, SV075iH-4U, SV090iH-4U, SV110iH-4U, SV132iH-4U, SV160iH-4U, SV220iH-4U) Symbols Functions AC Line Voltage Input...
Page 16 Chapter 1 - Installation 1.7.2 Terminal Configuration A Dynamic Braking Unit or a DC Bus Choke or both of them may be added to iH series inverters. Jumper Between P1 and P2 Must Be Removed In Order To Install a DC Bus Choke. W P1 P2 N 3 Phase Motor...
Page 17 Chapter 1 - Installation 1.7.3 Wiring Power Terminals n Wiring Precautions ü The internal circuits of the inverter will be damaged if the incoming power is connected and applied to output terminals (U, V, W). ü Use ring terminals with insulated caps when wiring the input power and motor wiring. ü...
Page 18 Chapter 1 - Installation Power and Motor Connection V W P1 P2 N 3 Phase Motor Power Input Motor should be connected to the Power supply must be connected U, V, and W terminals. to the R, S, and T terminals. If the forward command (FX) is on, Connecting it to the U, V, and W the motor should rotate counter...
Page 19: Control Terminals
Chapter 1 - Installation 1.8 Control Terminals 1A 1B 2B OC1 OC2 EG RST FX RX BX CM VR V1 B OC3 CM P1 P6 CM FM LM CM Type Symbol Name Description Multi-Function input P1 ~ P6 Used for Multi-Function Input Terminal. 1 ~ 6 Forward Run Command Forward Run When Closed and Stopped When Open.
Page 20 Chapter 1 - Installation 1.8.1 Wiring Control Terminals n Wiring Precautions ü CM and EG terminals are insulated to each other. Do not connect these terminals with each other and do not connect these terminals to the power ground. ü Use shielded wires or twisted wires for control circuit wiring, and separate these wires from the main power circuits and other high voltage circuits.
Page 21: Chapter 2 - Operation
CHAPTER 2 - OPERATION The iH series inverter has three parameter groups separated according to their function, as indicated in the following table. 2.1 Parameter Groups LCD Keypad Group (Upper Left Description Corner) Command Frequency, Accel/Decel Time Etc. Drive Group Basic Parameters Maximum Frequency, Amount of Torque Boost, Etc.
Page 22: Display
Chapter 2 - Operation 2.2 Display The LCD keypad can display up to 32 alphanumeric characters. Various settings can be checked directly from the display. The keypad is fully upload and download capable. The following is an illustration of the keypad The Program Button is used to go into programming mode to...
Page 23: Procedure Of Setting Data
Chapter 2 - Operation 2.4 Procedure of Setting Data To change command frequency from 30.00Hz to 45.50Hz: Press PROG key and the cursor appears on the lowest Manual K/K ¢º PROG digit. 00 REV 30.00 Hz Press LEFT key once to move digit. Manual K/K ¢º...
Page 24: Parameter Navigation
Chapter 2 - Operation 2.5 Parameter Navigation In any of the parameter groups, users may jump to a specific parameter code by following these steps: n Select a parameter group that requires a change. n At the beginning of each program group the menu will read [Jump Code]. Press the [PROG] key. Enter the code number of the parameter needing to be changed, then press [ENTER] key.
Page 25: Operation Method
Chapter 2 - Operation 2.6 Operation Method The iH has several operation methods as shown below. Operation Method Function Function Setting Operation using keypad Run/Stop command and frequency are set only through FUN 01: Key the keypad. FUN 02: Key Operation using Control Closing FX or RX terminal performs Run/Stop.
Page 26 Chapter 2 - Operation Blank Page...
Page 27: Chapter 3 - Quick- Start Procedures
CHAPTER 3 - QUICK- START PROCEDURES These Quick-Start Up instructions are for those applications where: The user wants to get the iH inverter started quickly The factory-preset values are suitable for the user application The factory-preset values are shown on the ‘Chapter 4 - Parameter List’. The iH inverter is configured to operate a motor at 60Hz (base frequency).
Page 28: Operation Using Keypad
Chapter 3 – Quick-Start Procedures 3.1 Operation Using Keypad 1. Apply AC power. Manual K/K ¢º 2. If the message of DRV 00 is ‘Manual K/K’, go to step 11. 00 FWD 0.00 Hz Jump code ¢º MODE 3. Press the [PROG] key to display function group. Freq.
Page 29 Chapter 3 – Quick-Start Procedures 11. Set the frequency reference by pressing the [PROG] key. Using PROG arrow keys, change the data to 5.00 Hz. Press the [ENTER] key. Manual K/K ¢º ENTER 00 FWD 0.00 Hz Acc. time ¢º 12.
Page 30: Operation Using Control Terminal - External Start, Stop And Speed Reference
Chapter 3 – Quick-Start Procedures 3.2 Operation Using Control Terminal – External Start, Stop and Speed Reference Manual T/T ¢º 1. Confirm ‘Manual T/T’ in DRV 00. 00 FWD 60.00 Hz Freq. set ¢º 2. If different, as in section 3.1 of this chapter, select Terminal ‘Terminal’...
Page 31 Chapter 3 – Quick-Start Procedures Output Frequency Output Frequency Time Time FX-CM FX-CM Time Time RX-CM RX-CM Time Time [FUN 02 - ‘Terminal-1’ Operation] [FUN 02 - ‘Terminal-2’ Operation]...
Page 32: Operation Using Both Keypad And Control Terminals
Chapter 3 – Quick-Start Procedures 3.3 Operation Using Both Keypad and Control Terminals 3.3.1 Frequency Set by External Source and Run/Stop Set by Keypad Manual K/T ¢º 1. Confirm ‘Manual K/T’ in DRV 00. 00 FWD 60.00 Hz Freq. set ¢º...
Page 33 Chapter 3 – Quick-Start Procedures 3.3.2 Frequency Set by Keypad and Run/Stop by External Source Manual T/K ¢º 1. Confirm ‘Manual T/K’ in DRV 00. 00 FWD 60.00 Hz Freq. set ¢º 2. If different, as in section 3.1 of this chapter, select ‘Key’...
Page 34 Chapter 3 – Quick-Start Procedures Blank Page...
Page 35: Chapter 4 - Parameter List
CHAPTER 4 - PARAMETER LIST 4.1 Drive Group Adj. Code Description Factory Keypad Display Setting Range Units Page During [DRV] Drive Group Default Output Frequency (During Run) or 0 to FUN 04 0.01 0.00 [Hz] Cmd. Freq Reference Frequency (During Stop) Acceleration Time 0 to 6000 [sec] 30 [sec]...
Page 36 Chapter 4 - Parameter List Adj. Code Description Factory Keypad Display Setting Range Units Page During [FUN] Function Group Default Linear, Deceleration Pattern S-Curve, Linear Dec. pattern U-Curve Output Voltage Adjustment 40 to 110 [%] 100 [%] Volt control Energy Savings Level 30 to 100 [%] 100 [%] Energy save...
Page 37 Units Page During [FUN] Function Group Default No Load Motor Current in RMS 0.1 to 300 [A] 0.1 [A] No-load cur. SV030iH-2U SV037iH-2U ··· Inverter Capacity SV030iH-2 Inv Capacity ··· SV315iH-4U SV375iH-4U Number of Auto Restart attempt 0 to 10...
Page 38 Para. Lock Carrier Frequency according to the Inverter Capacity (The Carrier Frequency is set to 3kHz for VT Rating) Inverter Setting Range Factory Default Inverter Setting Range Factory Default SV030iH-2U 2 to 10 6kHz SV075iH-4U 2 to 7 6kHz SV037iH-2U...
Page 39: I/O Group
Chapter 4 - Parameter List 4.3 I/O Group Adj. Code Description Factory Keypad Display Setting Range Units Page During [I/O] Function Group Default Jump to Desired Code # 1 to 60 Jump Code SPD_L, Multi-function Input 1 (P1 terminal) SPD_L P1 Input SPD_M, SPD_H,...
Page 40 Chapter 4 - Parameter List Adj. Code Description Factory Keypad Display Setting Range Units Page During [I/O] Function Group Default Deceleration Time 3 0 to 6000 [sec] 3.0 [sec] Dec time-3 Acceleration Time 4 0 to 6000 [sec] 4.0 [sec] Acc time-4 Deceleration Time 4 0 to 6000 [sec]...
Page 41 Chapter 4 - Parameter List Adj. Code Description Factory Keypad Display Setting Range Units Page During [I/O] Function Group Default Communication Timeout 0 to 60 [sec] 10.0 [sec] Comm. Timeout PG Slip Frequency for PG Option 0 to 10 [Hz] 0.01 5.00 [Hz] PG Slip Freq...
Page 42 Chapter 4 - Parameter List Blank Page...
Page 43: Chapter 5 - Parameter Description
CHAPTER 5 - PARAMETER DESCRIPTION The acceleration and deceleration time can be 5.1 Drive Group [DRV] changed to a preset transient time via multi-function inputs. By setting the multi-function inputs (P1~P6) DRV 00: Output Frequency / Reference Frequency to ‘ACCT_L’, ACCT_M’, ‘ACCT_H’ respectively, the Accel and Decel time set in [I/O 01] to [I/O 06] are supplied according to preset speeds assigned in Manual K/K...
Page 44 Chapter 5 - Parameter Description (Drive Group) DRV 05: Output Power Display Power ¢º 47.8kW Displays inverter output power (kW) when the drive is running. DRV 06: Fault Display Fault ¢º No Fault Displays the status of a fault. The output of the inverter is turned off when a fault condition occurs.
Page 45: Function Group
Chapter 5 - Parameter Description (Function Group) 5.2 Function Group FUN 02: Run/Stop Mode Selection FUN 00: Jump to Desired Code # Run/stop set ¢º Jump Code ¢º Setting Range: Key, Terminal-1, Terminal-2, Remote Setting Range: 0 to 98 Factory Default: Factory Default: This function selects Keypad, Terminal-1, Terminal- Any program code may be jumped to directly by...
Page 46 Chapter 5 - Parameter Description (Function Group) nameplate RPM. Please check with the motor Output frequency manufacturer before exceeding the base speed of the motor. Forward Time FUN 05: Base Frequency Set Point Reverse Freq. base ¢º 60.00 Hz FX-CM Setting Range: 40 to FUN 04 [Freq.
Page 47 Chapter 5 - Parameter Description (Function Group) Output voltage Setting Range: Linear, 2.0, User, Auto Factory Default: Linear Rated Voltage This is the pattern of voltage/frequency ratio. Select the proper V/F pattern according to the load. The motor torque is dependent on this V/F pattern. Output [Linear] pattern is used where constant torque is...
Page 48 Chapter 5 - Parameter Description (Function Group) [FUN 16] through [FUN 19]. [FUN 09] and [FUN 10] establish the level of torque Output Voltage boost in the Forward and Reverse direction. These functions are used to increase the output voltage to 100% the motor at low speeds for a higher V/F ratio loads that require higher than normal starting torque.
Page 49 Chapter 5 - Parameter Description (Function Group) [Auto Boost Pattern: ‘Torque Boost’] [Acc./Dec. Pattern: ‘S-Curve’] FUN 11: Acceleration pattern FUN 12: Deceleration pattern U-Curve: This pattern provides more efficient control of acceleration and deceleration in the application like winding machines. Acc.
Page 50 Chapter 5 - Parameter Description (Function Group) FUN 12 [Dec. pattern]. FUN 14: Energy Savings Level DCBR: [DC Injection Braking] Inverter stops with DC injection braking. Inverter outputs DC voltage when the frequency reaches the Energy save ¢º DC injection braking frequency set in FUN 33 during 100 % deceleration.
Page 51 Chapter 5 - Parameter Description (Function Group) [Stop Mode: ‘DCBR’] is selected in FUN 08 [V/F pattern]. Users can make the custom V/F pattern by setting two (2) points Output Frequency between [FUN 06] (Starting Frequency) and [FUN Output Cutoff 05] (Base Frequency Output Voltage 100%...
Page 52 Chapter 5 - Parameter Description (Function Group) FUN 21: Analog Speed Input Filter Gain FUN 22: Analog Speed Input Gain [Voltage 2] FUN 23: Analog Speed Input Bias V2 has the same function as V1. FUN 24: Analog Speed Input Direction Output Frequency Filter gain Freq.
Page 53 Chapter 5 - Parameter Description (Function Group) Output Frequency Analog dir ¢º Freq. Max Direct Setting Range: Direct, Invert Factory Default: Direct Analog Signal Input 0V or 5V or 10V or This function creates either a linear relationship 12mA 24mA between the analog input reference and the analog speed command, or creates an inverted linear [Analog Gain: ‘50%’]...
Page 54 Chapter 5 - Parameter Description (Function Group) FUN 25: Frequency Limit Selection FUN 28: Frequency Jump Selection FUN 26: High Limit Frequency FUN 29: Frequency Jump 1 FUN 30: Frequency Jump 2 FUN 27: Low Limit Frequency FUN 31: Frequency Jump 3 FUN 32: Frequency Jump Bandwidth Freq.
Page 55 Chapter 5 - Parameter Description (Function Group) This jumping of frequencies does not occur during Setting Range: 0.1 to 25 sec accelerating or decelerating. It only occurs during Factory Default: 0.5sec continuous operation. To use just one jump frequency, both Frequency jump 1 and Frequency jump 2 should be set 0 Hz.
Page 56 Inv Capacity --- No --- ¢º SV030iH-2 Setting Range: No, Yes Factory Default: Setting Range: SV030iH-2U ~ SV220iH-4U Factory Default: depend on model number Rated slip ¢º Description: 0.00 Hz [FUN 41] selects the inverter capacity. Inverter capacity must be set correctly for proper current...
Page 57 Chapter 5 - Parameter Description (Function Group) after a fault has occurred. The output relay terminals Retry time ¢º are A, B, C on control terminal strip. 1.0sec Retry 0: The output relay operates when the retry Setting Range: 0 to 10 sec number decreases to 0 by faults.
Page 58 Chapter 5 - Parameter Description (Function Group) [Stall Prevention during ‘Acceleration’] of motor FLA. Acc: During acceleration, when the output current of the inverter reaches the stall prevention level, the drive reduces its output frequency. When the current reduces below the stall prevention level, the drive will begin to accelerate again.
Page 59 Chapter 5 - Parameter Description (Function Group) Output Current [FUN 47] is used to provide motor overload detection. When the output current of the inverter has FUN 46 reached the “Overload Warning Level” and after the [Stall level] [FUN 48] on-delay time has been reached, a multi- Time output signal may be turned on.
Page 60 Chapter 5 - Parameter Description (Function Group) OC lim. time Motor type ¢º ¢º 60.0sec General Setting Range: 0 to 60sec Setting Range: General, Special Factory Default: 60sec Factory Default: General [FUN 49] and [FUN 50] turn off the output current These functions are to protect the motor from or the inverter when the motor reaches Over Current- overheating without using additional thermal...
Page 61 Chapter 5 - Parameter Description (Function Group) FUN 55: IPF Restart Selection Output Current Forced-Cool ‘Special’ FUN 56: Speed Search Acceleration Time FUN 57: Speed Search Deceleration Time 100% FUN 58: Speed Search Gain Self-Cool ‘General’ IPF select ¢º --- No --- 20Hz 60Hz Setting Range:...
Page 62 Chapter 5 - Parameter Description (Function Group) n Note: When selecting ‘Reset Restart’ to ‘Yes’, make sure Input Power Input power loss to utilize appropriate warning notice to minimize the potential for injury or equipment damage. Time Output Frequency Motor Speed Tripped Time Time...
Page 63 Chapter 5 - Parameter Description (Function Group) temperature where the inverter installed is high or other equipment may be affected by potential Input Power Power On inverter noise, set this value lower. This is also used to avoid induced resonance in the machine or motor.
Page 64 Chapter 5 - Parameter Description (Function Group) I-gain _term scale ¢º ¢º 100% Setting Range: 1 to 30,000 Setting Range: 0 to 100% Factory Default: Factory Default: 100% Sets the integral gain for PI control. Used to scale [FUN 64]. PI-FB select PI error dir ¢º...
Page 65 Chapter 5 - Parameter Description (Function Group) FUN 95: Parameter Upload to Keypad FUN 98: Parameter Lockout Para. read Para. lock ¢º ¢º --- No --- Setting Range: No, Yes Setting Range: 0 to 255 Factory Default: Factory Default: This parameter is used to copy all parameters from This function will prevent changes from being made the inverter to the keypad.
Page 66 Chapter 5 - Parameter Description (Function Group)
Page 67 Chapter 5 - Parameter Description (Function Group) Blank Page...
Page 68: I/O Group
Chapter 5 - Parameter Description (I/O Group) 5.3 I/O Group P6 Input ¢º ACCT_H I/O 00: Jump to Desired Code # Factory Default: ACCT_H Jump Code ¢º Multi-function input terminals can be defined for many different applications. The following table shows various definitions for them.
Page 69 Chapter 5 - Parameter Description (I/O Group) Multi-Step Accel/Decel Time Selection Table Output Frequency Time Time Time Time Time Time Time Time ACCT_L ACCT_M Time ACCT_H 0: OFF, 1: ON The Time 0 Accel/Decel time is configured by DRV Speed Speed Speed Speed...
Page 70 Chapter 5 - Parameter Description (I/O Group) DIS_OPT: This function is used to exchange Output Frequency control mode from Option Board to Inverter. Freq. Max. COMM_CONN: This function is used to bypass the motor from the inverter to commercial power, or the opposite. To bypass the motor to commercial line, set [FUN 01] to Time either ‘Key’...
Page 71 Chapter 5 - Parameter Description (I/O Group) Output Frequency Output Frequency Speed Search Time Time Output Voltage FX-CM Time P5-CM Time DC injection braking voltage AUX1 (1A-1B) Time FUN 36 Time Time P4-CM Time Time FX-CM Time Inverter Commercial Inverter Drive Line Drive Drive...
Page 72 Chapter 5 - Parameter Description (I/O Group) Factory Default: STEP_M FST_LO: During acceleration, deceleration, and constant speed OC3 output ¢º conditions, the inverter can generate an output signal STEP_H via the multi-function output terminals whenever its output frequency is below the value in [I/O 38]. Factory Default: STEP_H Output Frequency...
Page 73 Chapter 5 - Parameter Description (I/O Group) Output Frequency Output Frequency Frequency Detection Level Frequency Detection Level I/O 39 I/O 40 [FDT- I/O 39 [FDT-freq] I/O 40 [FDT- band] [FDT-freq] band] Time Time OC1-EG OC1-EG Time Time [OC1 Configured as ‘FDT-HI’] [OC1 Configured as ‘FDT-BAND’] FDT_PULSE: [Overload Signal]...
Page 74 Chapter 5 - Parameter Description (I/O Group) Output Current COMM: FUN 46 Whenever the inverter is in a Bypass Mode, the [Stall level] inverter can generate an output signal via the multi- Time function output terminals. FUN 46 [Stall level] STEP_L, STEP_M, STEP_H: The inverter can generate an output signal via the OC1-EG...
Page 75 Chapter 5 - Parameter Description (I/O Group) I/O 12: Jog Frequency I/O 20 - 33: Multi-Step Accel/Decel Time Jog freq. Acc time-1 ¢º ¢º 30.00 Hz 1.0sec Dec time-1 ¢º Setting Range: 0 to FUN 04 1.0sec Factory Default: 30Hz ¦...
Page 76 Chapter 5 - Parameter Description (I/O Group) I/O 37: IO Meter Adjustment (4~20mA) Load Meter Voltage IO adj. 15Vpeak ¢º 100 % Avg. 0~10V Setting Range: 0 to 120% Time Factory Default: 100% [Load Meter (LM-CM Terminal) Output] IO meter displays the inverter’s output frequency as a current signal on the IO terminal.
Page 77 Chapter 5 - Parameter Description (I/O Group) I/O 41: Speed Display Multiplier Factor Output Terminal Status I/O 40: Speed Display Divider Factor AUX2 AUX1 0: OFF, 1: ON Mul factor ¢º I/O 45: Software Version Setting Range: 0 to 999 Factory Default: S/W version ¢º...
Page 78 Chapter 5 - Parameter Description (I/O Group) protocol. For more detailed information, see Fnet Last fault 2 ¢º option manual. 60.00 Hz Last fault 2 MMC: ¢º 50.6 A This option card allows for multi-motors control with one inverter. For more detailed information, see MMC option manual.
Page 79 Chapter 5 - Parameter Description (I/O Group) I/O 56: PG Filter Gain [I/O 52] selects the time by which the inverter determines communication error between the inverter and option card. This function is used when PG. F-Gain ¢º the RS485/Modbus RTU/Fnet option card is selected.
Page 80 Chapter 5 - Parameter Description (I/O Group) Factory Default: Freq. [I/O 59] selects Frequency, Voltage of Current for the inverter output signal when using the ‘DI_DA’ option card. I/O 60: Analog Output Adjustment DA adj. ¢º 100 % Setting Range: 80 to 120% Factory Default: 100%...
Page 81 Chapter 5 - Parameter Description (I/O Group) Blank Page...
Page 82: Chapter 6 - Troubleshooting & Maintenance
CHAPTER 6 - TROUBLESHOOTING & MAINTENANCE 6.1 Fault Display When a fault occurs, the inverter turns off its output and displays the fault status in [DRV 05]. The last 2 faults are saved in [I/O 46] and [I/O 47] with the operation status at the instance of fault. Protective Keypad Display Description...
Page 83: Fault Remedy
Chapter 6 - Troubleshooting & Maintenance 6.2 Fault Remedy Protective Cause Remedy Function 1) Acceleration/Deceleration time is too short compared to 1) Increase Accel/Decel time the GD²of the load 2) Increase inverter capacity. 2) Load is larger than the inverter rating 3) Operate after motor has stopped 3) Inverter turns output on when the motor is free running.
Page 84: Troubleshooting
Chapter 6 - Troubleshooting Maintenance 6.3 Troubleshooting Condition Check Point 1) Main circuit inspection: Is the input (line) voltage normal? (Is the LED in the inverter is lit?) Is the motor connected correctly? 2) Input signal inspection: Check the operating signal input to the inverter. Check the forward and the reverse signal input simultaneously to the inverter? Check the command frequency signal input to the inverter.
Page 85 Chapter 6 - Troubleshooting & Maintenance 6.3.1 Motor Does Not RUN Charge LED ON? Input Power ON? Inverter Trouble RST or BX Check RST, BX Terminal OFF? Terminal Input FUN 02 FUN 02 set to Set to 'Key'? 'Terminal 1' or 2? Check FX, RX Terminal Input FUN 01...
Page 86 Chapter 6 - Troubleshooting Maintenance 6.3.2 Motor Speed NOT EQUAL to the Command Frequency Set High and Low Freq. limit selected in Freq. limit correctly in FUN 25? FUN 26, 27 Change Jump Freq. Jump Freq. selected in Command Freq.within and Bandwidth in FUN 28 ? Jump Freq.
Page 87 Chapter 6 - Troubleshooting & Maintenance 6.3.3 Motor Does Not Run Smoothly Acc/Dec Time Increase Acc/Dec Short in DRV01, 02? Time. Starting Frequency Lower Starting High FUN 06? Frequency. Analog Input Check Analog Noise? Input Terminal U,V,W Volatge Check Motor and Load Balanced? Inverter Trouble...
Page 88 Chapter 6 - Troubleshooting Maintenance 6.3.4 Motor Overheats V/F Pattern Change V/F Pattern Correct? FUN08 Does Motor Run at Use External Cooling Low Speed? Increase Motor Load Too Heavy? Capacity Ouput Voltage/Current Check Motor and Load Balanced? Inverter Trouble...
Page 89: How To Check Power Components
Chapter 6 - Troubleshooting & Maintenance 6.4 How to Check Power Components Before checking the power components, be sure to disconnect AC Input supply and wait until the Main Electrolytic Capacitors (DCP-DCN) discharge. Contactor P/B1 Charge resistor Electrolytic capacitors Dynamic Braking Unit (Option) n Diode Module Check Check Point Resistance...
Page 90: Maintenance
Chapter 6 - Troubleshooting Maintenance 6.5 Maintenance The iH series is an industrial electronic product with advanced semiconductor elements. However, temperature, humidity, vibration and aging parts may still affect it. To avoid this, it is recommended to perform routine inspections. 6.5.1 Precautions Be sure to remove the drive power input while performing maintenance.
Page 91: Daily And Periodic Inspection Items
Chapter 6 - Troubleshooting & Maintenance 6.6 Daily and Periodic Inspection Items Period Measuring Inspection Inspection Method Criterion Instrument Is there any dust? Refer to the precautions Temperature: Thermometer, Ambient Is the ambient temperature and humidity -10~+40 no Hygrometer, Ο Environ- adequate? freezing.
Page 92 APPENDIX A - FUNCTIONS BASED ON USE Set the function properly according to the load and operating conditions. Application and related functions are listed in the following table. Related Parameter Code DRV-01 [Acceleration Time], DRV-02 [Deceleration Time], Accel/Decel Time, Pattern Adjustment FUN 11 [Acceleration Pattern], FUN 12 [Deceleration Pattern] Reverse Rotation Prevention FUN 03 [Forward, Reverse Prevention]...
Page 93 APPENDIX B - PARAMETERS BASED ON APPLICATION Application Parameter Code DRV Group When you want to change the frequency setting DRV 00 When you want to change the acceleration and deceleration time of the motor DRV 01, DRV 02 FUN Group When you want to use the Jump Code FUN 00 When you want to change the run/stop method...
Page 94 DECLARATION OF CONFORMITY Council Directive(s) to which conformity is declared: CD 73/23/EEC and CD 89/336/EEC Units are certified for compliance with: EN50178 (1997) EN 50081-1 (1992) for 460V series inverters EN 50081-2 (1993) for 230V series inverters EN 55011 (1994) EN 50082-2 (1995) EN 61000-4-2 (1995) ENV 50140 (1993) &...
Page 95 TECHNICAL STANDARDS APPLIED The standards applied in order to comply with the essential requirements of the Directives 73/23/CEE "Electrical material intended to be used with certain limits of voltage" and 89/336/CEE "Electromagnetic Compatibility" are the following ones: • EN 50178 (1997) “Safety of information technology equipment”.
Page 96 RFI FILTERS THE L.G. RANGE OF POWER LINE FILTERS FF (Footprint) – FE (Standard) SERIES, HAVE BEEN SPECIFICALLY DESIGNED WITH HIGH FREQUENCY LG INVERTERS, THE USE L.G. FILTERS, WITH THE INSTALLATION ADVICE OVERLEAF HELP TO ENSURE TROUBLE FREE USE ALONG SIDE SENSITIVE DEVICES AND COMPLIANCE TO CONDUCTED EMISSION AND IMMUNITY STANDARDS TO EN50081 CAUTION IN CASE OF A LEAKAGE CURRENT PROTECTIVE DEVICES IS USED ON POWER SUPPLY, IT MAY BE FAULT AT...
Page 97 RFI Filters (Footprint - Standard) for iH SERIES series Filtros Estándar Standard Filters CORRIENTE DIMENSIONES MONTAJE CHOQUES TORNILLOS VARIADOR CODIGO TENSION PESO INTENS. POT. DE FUGAS DE SALIDA DIMENSIONS MOUNTING DE FIJACION INVERTER POWER CODE CURRENT VOLTAGE LEAKAGE WEIGHT OUTPUT MOUNT CURRENT CHOKES...
Page 98 2 0 0 1 7 0 1 8 0 x 4 5 Polígono Industrial de Palou 08400 Granollers ( Barcelona ) SPAIN / ESPAÑA Tel: +34 93 861 14 60 Fax: +34 93 879 26 64 E-mail: info@lifasa.com vsd@lifasa.es http: //www.lifasa.com...

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Lifasa SV030iH-2U Manual

USER SELECTION GUIDE (Ih SPECIFICATIONS)

Chapter 1 - Installation

Chapter 2 - Operation

Chapter 3 - Quick- Start Procedures

Chapter 4 - Parameter List

Chapter 5 - Parameter Description

Chapter 6 - Troubleshooting & Maintenance

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Troubleshooting

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Summary of Contents for Lifasa SV030iH-2U

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