How to resolve a linear scale wiring error on Delta ASD-A2-5543?
To resolve a linear scale wiring error on Delta Servo Drives, check all wiring connections of the linear scale and reconnect the wiring if necessary.
What causes a full closed-loop excessive deviation on Delta Servo Drives?
A full closed-loop excessive deviation on Delta Servo Drives means that the position control deviation value of the full-closed loop exceeds the specified limit. Increase the parameter setting value of P1-73. Ensure all connections are tight and well-connected to the mechanical equipment.
What to do if there is a U, V, W, GND wiring error on Delta ASD-A2-5543?
If there is a U, V, W, GND wiring error on Delta Servo Drives, it means that the wiring connections of U, V, W (for servo motor output) and GND (for grounding) are in error. Follow the wiring steps in the user manual to reconnect the wiring and ground the servo drive and motor properly.
How to resolve a serial communication timeout on Delta ASD-A2-5543?
A serial communication timeout on Delta Servo Drives can occur if: * The setting value in the timeout parameter is not correct. If this is the case, correctly set P3-07. * Communication command is not being received for a long time. If this is the case, tighten the communication cable, make sure the communication cable is not damaged and ensure all wiring is correct.
What causes Serial communication error on Delta ASD-A2-5543?
A serial communication error on Delta Servo Drives can be triggered by: * Defective communication parameter setting. If this is the case, correctly set parameter setting. * Incorrect communication address. If this is the case, correctly set communication address. * Incorrect communication value. If this is the case, correctly set communication value.
What causes an encoder output error in Delta Servo Drives?
An encoder output error in Delta Servo Drives can be caused by: * The encoder itself or the wiring of the encoder being in error. If this is the case, perform the corrective actions as described in AL011, AL024, AL025 and AL026. * The output frequency for pulse output exceeding the limit of its allowable setting value. If this is the case, correctly set P1-76 and P1-46.
How to handle an abnormal pulse control command with Delta Servo Drives?
An abnormal pulse control command with Delta Servo Drives can occur if the pulse command frequency is higher than the rated input frequency. To resolve this, correctly set the input pulse frequency.
What does a forward limit switch error mean on Delta ASD-A2-5543?
A forward limit switch error on Delta Servo Drives indicates that: * The forward limit switch is activated. If this is the case, activate forward limit switch. * The servo system is not stable. If this is the case, modify parameter setting and re-estimate motor capacity.
How to fix an overload error on Delta ASD-A2-5543?
An overload error on your Delta Servo Drive indicates that the drive has exceeded its rated load during continuous operation or that control system parameter setting is incorrect or that the wiring of drive and encoder is in error or that the encoder of the motor is damaged. To resolve this issue: * Increase motor capacity or reduce the load. * Adjust the gain value of the control circuit or decrease Accel/Decel time setting. * Ensure all wiring is correct. * If the encoder of the motor is damaged, please contact your distributor for assistance or contact with Delta.
What to do if Delta Servo Drives display an adjustment error?
If your Delta Servo Drives display an adjustment error, it might be because: * The analog input contact does not go back to zero. If this is the case, correctly ground the analog input contact. * The detection device is damaged. If the error persists after resetting the power supply, please contact your distributor or Delta for assistance.
General| Brand | Delta |
|---|---|
| Model | ASD-A2-5543 Series |
| Category | Servo Drives |
| Language | English |
Check product for damage, loose screws, and ensure correct wiring and power supply specifications.
Proper mounting orientation, ventilation clearance, and precautions against parallel connection to prevent damage.
Recommended circuit breakers and fuses for 220V and 400V series servo drives, recognized by UL/CSA.
Specifications for built-in and external regenerative resistors for 220V and 400V series servo drives.
Details on connecting peripheral devices, connectors, and terminals for the 220V series servo drive.
Details on connecting peripheral devices, connectors, and terminals for the 400V series servo drive.
Basic wiring diagrams for 220V series (200W and below, 400W-4.5kW, 5.5kW-15kW) and 400V series.
Provides standard wiring examples for various control modes like PT, PR, Speed, Torque, and Communication.
Provides standard wiring examples for various control modes like PT, PR, Speed, Torque, and Communication for the 400V series.
Step-by-step guide to switching between modes (Parameter, Monitoring, Alarm) and setting parameters.
Procedure for applying power, ensuring correct wiring, and understanding servo drive status indicators.
Step-by-step guide for performing a JOG trial run without load using software or DI settings.
Comprehensive guide to tuning, including inertia estimation, auto tuning, semi-auto tuning, and resonance suppression.
Lists and describes parameters for target speed, acceleration/deceleration time, pause time, PR parameters, and PR definition.
Provides a comprehensive list of parameters, their abbreviations, functions, default values, and related sections.
Detailed descriptions of various parameters, categorized into Monitor, Filter/Resonance, Gain, Position, Speed, Torque, and Communication parameters.
Lists and describes various alarms related to servo drive operation, including causes and corrective actions.
Provides detailed information on common causes of errors and step-by-step corrective actions for specific alarms.
Lists corrective actions for various alarm codes, including turning DI.ARST on or re-powering the servo drive.
Detailed specifications for ASDA-A2 220V and 400V series servo drives, covering power, control, and environmental aspects.
Specifications for ECMA series servo motors, including 220V and 400V series, with details on inertia and brake features.
Guides on system initialization, including procedures for power-on, coordinate system reset, and reading absolute coordinate data.
Guidelines for product use, storage, periodic cleaning, and avoiding disassembly of mechanical parts.
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