Why is my Mitsubishi Electric MDS-EH-SP Control Systems showing overvoltage?
The overvoltage error in Mitsubishi Electric Control Systems occurs because the bus voltage in the main circuit has exceeded the allowable value.
Why does my Mitsubishi Electric Control Systems have excessive speed error?
Excessive speed error in Mitsubishi Electric Control Systems means that the difference between the actual speed and the command speed continued for longer than the excessive speed deviation timer setting.
What causes Mitsubishi Electric Control Systems to show grounding error?
A grounding error in Mitsubishi Electric Control Systems indicates that the motor power cable is in contact with FG (Frame Ground).
What causes initial magnetic pole position detection error in Mitsubishi Electric MDS-EH-SP Control Systems?
The initial magnetic pole position detection error in Mitsubishi Electric Control Systems occurs when the servo ON has been set before the magnetic pole shift amount is set in the built-in motor which uses the absolute position encoder.
What causes a Mitsubishi Electric MDS-EH-SP NC-DRV communication CRC error?
An NC-DRV communication CRC error in Mitsubishi Electric Control Systems means that the data received from the NC was outside the setting range.
What does Mitsubishi Electric Control Systems memory error 1 mean?
Memory error 1 in Mitsubishi Electric Control Systems indicates that a hardware error was detected during the power ON self-check.
What does axis selection error mean in Mitsubishi Electric Control Systems?
An axis selection error in Mitsubishi Electric Control Systems means that the axis selection rotary switch has been incorrectly set.
General| Brand | Mitsubishi Electric |
|---|---|
| Model | MDS-EH-SP |
| Category | Control Systems |
| Language | English |
Details essential safety measures to prevent electric shocks during installation and operation.
Outlines precautions to prevent injuries when handling motors, especially those with permanent magnets.
Provides guidelines to prevent fires by ensuring proper installation and component selection.
Details on environmental conditions, shaft characteristics, coupling, and cable stress for servo motor installation.
Guidelines for environmental conditions, balancing, shaft characteristics, and connection for spindle motors.
Details names and applications of terminal block signals and control circuit connectors.
Explains connection methods for optical communication cables and drive unit arrangement.
Provides connection details for servo motors, full-closed loop systems, and spindle motors.
Details the STO (Safe Torque Off) and SBC (Safe Brake Control) functions and their benefits.
Explains the STO function for electronically removing motor energy and preventing electric shocks.
Covers initial setup steps like setting rotary switches and DIP switches.
Details setting servo parameters such as servo specification, machine side encoder, and distance-coded reference scale.
Covers setting spindle parameters, shaft characteristics, and installation procedures.
Provides guidelines on environmental conditions, installation direction, foreign matter prevention, and heat radiation.
Details the installation procedures for spindle side ABZ pulse and PLG serial output encoders.
Outlines the protection functions, including emergency stop observation and SLS.
Details the double-protection for emergency stop signals and operation sequences.
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