What is VFD (Variable Frequency Drive)?

A VFD is used to control the speed of an AC induction motor it can do this by varying the motors supplied voltage and changing the frequency of the power. Three major designs are used in VFD they are pulse width modulation, current source inverter, and voltage source inverter.

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It has become the most common drive controller it is because a VFD works very well with motor ranging, it is highly reliable, affordable, and it only reflects the least amount of harmonics back to the power source.

Fault conditions in VFD (motor fault analysis)

• Rolling element bearing faults
• Sleeve bearing faults
• Imbalance
• Misalignment
• Soft foot conditions
• Mechanical resonances
• Rotor winding failure
• Stator winding failure
• VFD carrier frequencies
• Air gap issues

Troubleshooting VFDs

If you have an unidentified wide frequency band vibration fault it is possible that it is a VFD problem. It can be corrected by additional tuning of torque profiles, carrier frequencies, or smoothing parameters may correct the issue

How does a motor is affected In case of poorly designed or faulty drive system

• Fast voltage rise times can break down the motor winding insulation which is not designed for this condition
• Motor winding insulation could be break by a reflected wave over-voltage condition
• Electrical damages in the bearing could happen

How to keep the VFDs and electric motors running

VFDs are very sensitive device so it must be checked regularly, but it has a lot of advantages a VFD provides better energy saving, in a mechanical application they provide fine adjustment which is not possible by other methods

Start with baseline readings

Before starting a motor take insulation resistance readings from phase to phase and phase to ground. Measure the insulation resistance of the winding, measure the starting and running amperage, measure the temperature at first startup and after a period of use

Check the protection

Check the protection systems like the overload contractors and fusing, check if the overload is set for full load amperes or is it set too high or low. Check if the fusing is correct for the applications and check if they are sized according to the load if it does not then replace it with a higher rated fuse….

Don’t change parts instead of troubleshooting

The parts must not be changed until the trouble goes away it is an expensive way to troubleshoot, the same motor may work in other application and by changing the device we will burden ourself with finding the real fault because it was only temporary it may be because of the loading or other factors

Cabling could be an issue

The line at the motor should be checked, power lines may cause the fault conditions power lines in the high-temperature area could fail even by the protection of the conduit. The voltage at the panel and the motor must be checked without checking all these. Parts must not be changed

Check if it is the right motor

In certain case, motors are used for certain applications for which they are not designed. The duty cycle of the motor could determine for which case the motor is suited

Checking power problems

Most of the drive failures are caused by power spikes phase loss or under voltages. After a power issue, it’s important to measure the power to check if it is corrected or not otherwise the drives may be damaged.

VFD Maintenance Tips

To maximize a VFD’s life expectancy, it must be kept in good condition.

The following are the 5 most important VFD maintenance suggestions for ensuring smooth operations.

• Regular Cleaning
• Temperature Maintenance
• Regular Visual Inspections
• Prevent Moisture Penetration
• Intact Connections

Regular Cleaning

One of the most important maintenance advice for this controller is to keep them clean. Industrial & commercial areas have an abundance of airborne dust & debris that can gather on a VFD and impair its performance.

To prevent this, regardless of the VFD frame type, regular cleaning is required for VFD. The heat sink & fans must constantly be clean. Periodic cleaning of VFDs can be accomplished by wiping, cleaning, & air spraying the accumulation from them.

Temperature Maintenance

Another important suggestions for proper VFD maintenance is to keep their temperature stable, as these are typically employed in compact spaces with frequent heat surges.

However, in order to maintain their optimal temperature, adequate air circulation must be provided. Additionally, temperature control systems should be developed.

Regular Visual Inspections

Regular visual inspections are another proactive strategy to maintaining VFDs.

Maintenance staff with some knowledge of these controllers should visually inspect them monthly to detect any evident defects.

Some of the essential checks that must be performed include the operation of area cooling systems, fibre optic cables, connectors, and emergency circuits.

Prevent Moisture Penetration

Water and electricity are incompatible in any industrial context, and Variable Frequency Drives are no exception.

Moisture should not come into touch with VFDs because it will inevitably cause device failures, erratic behaviour, and corrosion.

Therefore, VFDs should be kept dry.

Intact Connections

Following on the schedule of VFD maintenance recommendations is to make sure the connections are tight.

The frequent vibrations may have caused the electrical connections to loosen.

Loose connections cause the controller to operate unevenly. Therefore, maintenance professionals should examine the connections on a regular basis.

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