Overvoltage Fault at Constant Speed in delta drive indicates that the drive is detecting a voltage level higher than its maximum allowable limit while the motor is running at a steady speed. This fault can occur due to various issues related to the drive, motor, or power supply.

Common Causes of Overvoltage Fault at Constant Speed:

1. Regenerative Energy:

   • Motor Deceleration: If the motor is decelerating or experiencing sudden changes in load, regenerative energy can cause a voltage spike. Even at constant speed, if the motor’s load changes suddenly, it can result in overvoltage conditions if the drive’s regenerative braking system cannot handle the energy.

2. Power Supply Issues:

   • Voltage Spikes: Spikes or surges in the input power supply can lead to overvoltage conditions in the drive. These can occur due to power grid issues or sudden changes in power demand.
   • Input Voltage Imbalance: An imbalance in the input power phases can cause overvoltage faults.

3. Drive Configuration and Settings:

   • Incorrect Voltage Settings: Incorrect voltage settings or parameters in the drive can lead to overvoltage faults. Ensure that the voltage settings are configured correctly for your application.
   • Improper Speed Regulation: Issues with speed regulation or control parameters can cause excessive voltage to be applied.

4. Faulty Motor or Wiring:

   • Motor Insulation Problems: Breakdown or degradation of insulation in the motor can lead to excessive voltage levels. This might be due to wear or damage.
   • Faulty Wiring or Connections: Damaged or poorly connected cables can cause voltage irregularities.

5. Drive Component Issues:

   • Component Failure: Failures in drive components, such as power transistors (IGBTs) or capacitors, can lead to incorrect voltage levels and trigger faults.
   • Internal Faults: Internal faults within the drive’s circuitry may result in overvoltage conditions.

Troubleshooting Steps for Overvoltage Fault at Constant Speed:

1. Check Fault Codes:

   • Review the fault codes on the drive’s display to confirm that the issue is related to overvoltage. Consult the drive’s manual for details on the fault code and its meaning.

2. Inspect Power Supply:

   • Measure the input voltage to the drive to check for stability and any spikes or surges. Ensure that the power supply is balanced and within the specified range.
   • Use power conditioning equipment or surge protectors if necessary to stabilize the power supply.

3. Review Drive Configuration:

   • Check and adjust the drive’s voltage and speed settings to ensure they are correctly configured. Make sure the voltage settings match the motor’s requirements and the application’s needs.
   • Verify that acceleration and deceleration parameters are correctly set to prevent sudden voltage changes.

4. Examine Motor and Wiring:

   • Inspect the motor for any insulation problems or damage. Use a megohmmeter to check insulation resistance and ensure that it is within acceptable limits.
   • Check cables and connections for any damage or poor connections that could cause voltage issues.

5. Inspect Drive Components:

   • If possible, visually inspect internal drive components for signs of damage or failure. Look for issues such as burned or swollen components.
   • Ensure that all internal components and connections are secure and functioning properly.

6. Check for Electrical Interference:

   • Investigate sources of electrical noise or interference in the environment. Use shielding or proper grounding to reduce interference if necessary.