What causes CANbus error on Delta Servo Drives?
A CANbus error on Delta Servo Drives is caused by CANbus off or Error Rx/Tx Counter exceeding 128. NMT Maser send “Reset node“ command to its slave or restart the servo drive.
What to do if Delta Servo Drives show abnormal pulse command?
If your Delta Servo Drives are showing an abnormal pulse command, it could be because the pulse command frequency is higher than the rated input frequency. Correctly set the input pulse frequency.
What to do if write parameter error occurs: exceeds the limit of normal range on Delta Servo Drives?
If the parameter setting value exceeds the limit of normal range, correct the PR command and parameter setting value.
How to fix An error occurs when loading CANopen data in Delta ASD-A2-2023?
To fix an error occurs when loading CANopen data in Delta Servo Drives, when an error occurs when loading data via EEPROM, use DI.ARST, CANopen 0x1011 Restore default parameter.
How to fix regeneration error in Delta Servo Drives?
If your Delta Servo Drives are showing a regeneration error because you choose the wrong regenerative resistor or does not connect to external regenerative resistor, calculate the value of the regenerative resistor again and correctly set the value of P1-52 and P1-53.
How to troubleshoot serial communication error in Delta ASD-A2-2023?
If you're experiencing a serial communication error with your Delta Servo Drives, check the following: * Improper setting of the communication parameter: Correctly set the parameter value. * Incorrect communication address: Correctly set the communication address. * Incorrect communication value: Correctly set the value.
How to resolve CANopen PDO is read-only and write-protected in Delta ASD-A2-2023?
To resolve CANopen PDO is read-only and write-protected in Delta Servo Drives, when the specified object in the message is write- protected, use NMT: Reset node or 0x6040.Fault Reset.
How to resolve CANopen PDO is not allowed in PDO in Delta ASD-A2-2023?
To resolve CANopen PDO is not allowed in PDO in Delta Servo Drives, when the specified object in the message does not support PDO, use NMT: Reset node or 0x6040.Fault Reset.
What to do if index error occurs when accessing CANopen object on Delta ASD-A2-2023?
If the specified Index in the message does not exist, NMT Maser send “Reset node“ command to its slave or reset the fault by sending the control word (0x6040) through CAN communication (the value of CANopen object 0x6040 should be reset).
What to do if sub-index error occurs when accessing CANopen object on Delta ASD-A2-2023 Servo Drives?
If the specified Sub-index in the message does not exist, NMT Maser send “Reset node“ command to its slave or reset the fault by sending the control word (0x6040) through CAN communication (the value of CANopen object 0x6040 should be reset).
General| Series | ASD-A2-2023 |
|---|---|
| Motor Power | 2.0kW |
| Control Mode | Position, Speed, Torque |
| Storage Temperature | -20°C to 65°C |
| Power Supply | 3-phase 200 ~ 230VAC, 50/60Hz |
| Communication | RS-485, CANopen |
| Protection Features | Overvoltage, Undervoltage, Overcurrent, Overload, Overtemperature, Short Circuit |
| Humidity | 20% to 90% RH (non-condensing) |
| Operating Temperature | 0°C to 55°C |
Instructions for inspecting the servo drive and motor upon receipt to ensure proper condition and completeness.
Detailed wiring instructions and diagrams for connecting peripheral devices to the 220V series servo drive.
Detailed wiring instructions and diagrams for connecting peripheral devices to the 400V series servo drive.
Step-by-step guide on how to navigate and set parameters using the servo drive's control panel.
Procedure for inspecting the servo motor and drive before applying power or running under load.
Instructions on how to correctly apply power to the servo drive and verify its status.
Comprehensive guide to tuning the servo system, including inertia estimation and various tuning modes.
Overview of available operation modes: Position, Speed, and Torque, including single and dual mode controls.
Detailed explanation of the Position Mode, including PT and PR command types, and related settings.
Description of the Speed Control Mode (S or Sz), covering command input methods and control structure.
Explanation of the Torque Control Mode (T or Tz), including command sources and control structure.
Overview of ASDA-A2's motion control capabilities: single-axis, capture/compare, and E-Cam functions.
Summary of key parameters for motion control, including target speed, accel/decel time, pause time, and PR parameters.
A comprehensive list of parameters, their abbreviations, functions, defaults, and related sections.
Detailed descriptions for various parameters, including monitor parameters (P0-xx).
Overview of the serial communication hardware interface for RS-485 and RS-232.
Essential parameters for servo drive communication, including address, transmission speed, and protocol.
List of servo drive alarms, their descriptions, corresponding DO signals, and servo status.
Troubleshooting guide for CANopen communication alarms, including causes and corrective actions.
Troubleshooting guide for motion control alarms, detailing causes, checking methods, and corrective actions.
Detailed table of common causes and corrective actions for various servo drive alarms.
Specific corrective actions to clear alarms after they occur, including DI/DO operations and parameter resets.
Technical specifications for ASDA-A2 series servo drives, including 220V and 400V series.
Technical specifications for ECMA series servo motors, covering different inertia types and voltage ratings.
Instructions for installing the absolute system, including connection examples for single and dual battery boxes.
Procedure for initializing the servo system, including coordinate system setup and data reading methods.
Lists common alarms for absolute systems, including their descriptions and corresponding corrective actions.
General and specific inspection procedures before powering on or running the servo drive.
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