LiteOn EVO600043S1D5E20F - User Manual

Other manuals for LiteOn EVO600043S1D5E20F

Quick Start Guide102 pages

• K

  Kevin BrockAug 15, 2025

  What to do if my LiteOn EVO600043S1D5E20F Controller shows overvoltage?

  

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  • A

    Amy OliverAug 15, 2025

    If your LiteOn Controller is showing an overvoltage error, it could be due to several reasons. There might be a surge voltage entering the drive input power, possibly from a thyristor convertor or phase advancing capacitor. A short circuit in the machinery output or a ground fault in the output circuit could also cause the DC bus capacitor to overcharge. Additionally, electrical signal interference might be causing the drive to malfunction. To address this, consider installing a DC link choke, inspect the motor power cable, relay terminals, and motor terminal box. Correct any grounding shorts and reapply power. You may also need to check the solutions for interference suppression, focusing on the control circuit lines.

    

    Reply
• E

  Emily JohnsonAug 21, 2025

  Why does my LiteOn EVO600043S1D5E20F Controller show undervoltage and how can I fix it?

  

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  • J

    Judith RussellAug 21, 2025

    An undervoltage error on your LiteOn Controller may be due to several reasons: a loss of input power phase, loose wiring terminals on the drive input power, a problem with the voltage from the drive input power, weakened drive main circuit capacitors, or damage to the contactor or relay on the soft-charge bypass circuit. To troubleshoot, first, correct the drive input power wiring and tighten the terminals. Check the voltage and adjust it according to the drive input power specifications, and inspect the main circuit magnetic contactor. If the problem persists, try turning the power on and off to see if any issues occur. If the problem continues, consider replacing the entire drive or the control board.

    

    Reply
• D

  Daniel MillerAug 25, 2025

  What causes a LiteOn EVO600043S1D5E20F Controller to display a motor overheat error?

  

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  • M

    Martin BurgessAug 25, 2025

    A motor overheat error on your LiteOn Controller can be caused by a fault on the machinery, such as the machinery being locked up, or simply the motor overheating. To resolve this, first check the machinery status. Then, check the load, acceleration/deceleration time, and cycle time. You can reduce the load, increase the C1-00 to C1-07 (Acc./Dec. Time) settings, and adjust d1-02 to d1-11 (V/F Characteristics).

    

    Reply
• K

  Kelli FlemingAug 27, 2025

  What causes an output phase loss in a LiteOn Controller and how do I resolve it?

  

  Same questionReply

  • M

    marywernerAug 28, 2025

    An output phase loss in your LiteOn Controller can occur if the output cable is not connected, the motor winding is impaired, the output terminal is loose, the rated current of the motor being used is 5% less than the drive rated current, an output transistor is impaired, or a single phase motor is activating. Check the wiring and properly connect the output cable. Inspect the resistance between motor lines and replace the motor if the winding is impaired. Fasten the terminal using the tightening torque specified in the manual. Check motor capacities and the drive. Note that the drive cannot run a single phase motor.

    

    Reply
• S

  Sarah EsparzaAug 30, 2025

  What to do if LiteOn EVO600043S1D5E20F Controller shows PID Feedback High?

  

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  • L

    lwhiteAug 30, 2025

    If your LiteOn Controller displays a 'PID Feedback High' error, it could be due to inappropriate settings in b5-22 and b5-23, incorrect PID feedback wiring, a malfunctioning feedback sensor, or a feedback input circuit malfunction. To resolve this, confirm the b5-22 and b5-23 settings, correct the wiring, and replace the sensor if it is damaged. If the issue persists, consider replacing the PCB or drive and contact your local distributor.

    

    Reply
• D

  Danielle FergusonSep 2, 2025

  What does it mean when my LiteOn Controller displays 'PID Feedback Low'?

  

  Same questionReply

  • J

    James MartinezSep 2, 2025

    When your LiteOn Controller displays 'PID Feedback Low', it could be due to inappropriate settings in b5-12 and b5-13, incorrect PID feedback wiring, a malfunctioning feedback sensor, or an incorrect feedback input circuit. To address this, correct the b5-12 and b5-13 settings, correct the wiring, and replace the sensor if it is damaged. If the issue continues, contact your local distributor to replace the board or the drive.

    

    Reply
• M

  michaelrobbinsSep 5, 2025

  What causes overtorque detection 1 on a LiteOn EVO600043S1D5E20F Controller?

  

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  • R

    ray01Sep 5, 2025

    Overtorque Detection 1 on a LiteOn Controller may be caused by incorrect parameter settings or a malfunction on the machinery. To resolve this, reset P6-01 and P6-02. Also, check the machinery and load status.

    

    Reply
• B

  Bryan RothSep 8, 2025

  What should I do if my LiteOn Controller's heatsink temperature is over 95°C?

  

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  • J

    Joseph ZavalaSep 8, 2025

    If your LiteOn Controller's heatsink temperature is over 95°C, it could be due to several reasons. The internal cooling fan might have stopped operating, or there may be bad airflow due to insufficient room. It could also be caused by high output current. To resolve this: a. Improve the airflow inside the enclosure panel. b. Install an air conditioner or fan to cool the environment. c. Remove any possible source of heat. Measure the output current and reduce the load. Lower the setting in C6-00 (Carrier Frequency Option). Replace the cooling fan if necessary.

    

    Reply
• C

  Claire BaldwinSep 12, 2025

  What to do if my LiteOn Controller shows an external fault on input terminals S1 to S6?

  

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  • L

    lanerubenSep 12, 2025

    If your LiteOn Controller is showing an external fault on input terminals S1 to S6, it could be due to an external device tripping an alarm, incorrect wiring, or incorrect multi-function input wiring. Remove the cause of the external fault and then reset the multi-function input. Confirm if the signal lines are properly connected to the terminals assigned for external fault detection (E1-??= 23 to 38). Also, confirm if E1-??=23 to 38 is set to the unused terminals.

    

    Reply
• M

  meghanacostaNov 17, 2025

  What causes motor overload on a LiteOn EVO600043S1D5E20F Controller and how to fix it?

  

  Same questionReply

  • E

    emcdowellNov 17, 2025

    Motor overload on a LiteOn Controller can stem from several factors. The load might be too heavy, or the acceleration and deceleration times could be too short. Operating the motor below its rated speed with a high load, incorrect settings in the motor protection function, a voltage that's too high based on the V/F settings, an incorrect motor rated current setting, a base frequency set too low, running multiple motors on one drive, or mismatched electrical thermal protection characteristics could also be causes. To resolve this, check the loading capacity and reduce the load if necessary. Confirm and increase the acceleration and deceleration times using the C1-00 to C1-03 parameter settings. If operating at low speeds, reduce the load, increase the speed, or consider a higher capacity or...

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Summary

Chapter 1 | Safety

Page: 5

1.1 General Safety

Provides essential safety instructions for handling and operating the AC drive.

1.1.3 Installation

Covers critical steps and precautions for installing the drive safely and correctly.

1.1.4 Wiring

Explains essential wiring safety rules and procedures to prevent hazards.

1.1.5 Operation

Describes safe operating procedures and precautions for using the AC drive.

1.1.6 Maintenance

1.3 AC Drive Application Precautions

1.3.1 AC Drive Selection

Chapter 3 | Drive Installation

Page: 17

3.1 Installation Environment

3.2 Installation Direction and Spacing

Details correct installation orientation and clearance for proper cooling.

3.4 Wiring Protection

Explains methods for protecting the drive and cables from electrical faults.

Chapter 4 | Wiring

Page: 21

4.1 Wiring Safety

Outlines critical safety precautions for all wiring procedures.

4.2 Main Circuit

Covers the principles and safety for the main power circuit connections.

4.2.1 Main Circuit Terminal

Details the function and description of each main circuit terminal.

4.2.2 Main Circuit Wiring

Provides step-by-step instructions for wiring the main power circuit.

4.2.3 Main Circuit Cable Size and Tightening Torque

Specifies recommended cable sizes and torque values for secure connections.

4.3 Control Circuit

Explains the wiring and connections for the drive's control circuit.

4.3.1 Control Circuit Terminals

Details the functions and descriptions of control circuit terminals.

4.3.2 Control Circuit Wiring

Provides instructions for wiring the control circuit safely and correctly.

4.3.3 Control Circuit Cable Size and Tightening Torque

Specifies cable sizing and tightening torque for control circuit wiring.

4.4 I;O Connections

Covers the setup and configuration of input/output connections.

4.4.1 NPN and PNP Mode Selection

4.5 Wiring Checklist

A comprehensive checklist to verify all wiring connections before operation.

Chapter 5 | Keypad

Page: 34

5.1 Check before Operation

Lists essential checks to perform before powering up the drive.

5.2 Powering Up the Drive and Operation Status Display

Guides on powering up the drive and understanding its status display.

5.3 Keypad

5.3.1 Keys and Displays

5.3.3 Keypad Programming

Details the procedures for navigating and programming parameters using the keypad.

Chapter 6 | Parameters

Page: 40

6.1 Group A, Initialization

6.2 Group b, Application

6.3 Group C, Tuning

6.4 Group L, Frequency Command

Details how to configure frequency command sources and settings.

6.5 Group d, Motor Parameters

6.6 Group E, Multi-Function Terminals

E2 Multi-Function Digital Output

Chapter 8 | Troubleshooting

Page: 155

8.1 Alarm and Fault Displays

Lists common alarms and faults, their causes, and possible solutions.

8.2 Fault Detection

Details fault displays, causes, and solutions for various drive conditions.

8.3 Operation Errors

Chapter 9 | Inspection & Maintenance

Page: 170

9.1 Safety

Highlights critical safety precautions for electrical shock during inspection and maintenance.

9.2 Periodic Inspection

Chapter 11 | Communications

Page: 177

11.1 Modbus Communication Specifications

11.2 Connecting to Controller;PLC;HMI

11.3 Modbus Setup Parameters

Details the specific parameters required for setting up Modbus communication.

11.4 Drive Operations by Modbus

11.7 Modbus Data

11.8 Communication Errors

LiteOn EVO600043S1D5E20F Specifications

Print Specification

General

Model	EVO600043S1D5E20F
Type	SSD
Interface	SATA 6Gb/s
Form Factor	2.5 inch
Random Read IOPS	70, 000
Random Write IOPS	70, 000

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