It’s well documented that VFD bus capacitors have a limited life span and at some point require replacement….preferably prior to a catastrophic failure.
Capacitors can and do fail within the expected service life rating. The expected service life rating can only be used as a general guideline because of the various conditions that play into and affect the Capacitors “actual” life span.
Temperature, over voltage/current, improper mounting/clamping, terminal connections, and shelf life are some conditions that contribute to the actual life span of bus capacitors.
Over temperature dramatically decreases the life span of the bus capacitors. As the temperature increases it causes an increase in electrolytic loss thus causing the fluid inside the capacitor to prematurely dry out. As the fluids dry out, the capacitor will start to overheat and you may see a discoloration in the capacitor. However, the capacitor can also continue to operate right up until a catastrophic failure with no visual warning signs beforehand.
Capacitor over voltage/current results in a break down of the aluminum oxide layers thus causing a short circuit between the electrodes. As the current flows through the paper spacers the electrolyte heats up and can result in the capacitor leaking, bulging or even bursting. Also consider that over voltage/current with the added increase in temperature is a deadly combination that rapidly accelerates premature capacitor failures.
Improper mounting & clamping and/or under or over tightening of the capacitor terminal connections will also cause issues. The mounting & clamping mechanism aids in reducing capacitor swelling. Terminal connections can be tricky; too tight can strip out the mounting holes in the bus capacitor, while too loose results in a poor mechanical and electrical connection.
It’s even important to use the proper screws. Bus capacitors are commonly mounted to bus work, which can vary in thickness. Using too long a screw can penetrate the capacitor resulting in damage, while too short means a poor connection that will loosen over time.
Capacitor shelf life also has an expiration date. Capacitors with no voltage applied allow the liquid electrolyte solution consisting of ethyl glycol fluid to deteriorate. Capacitors can be reformed by properly applying the correct voltage for a set time to the capacitor and increasing the voltage until the final voltage requirement is met to reform the oxide layer. The process of reforming the capacitors thus ensures the integrity of the insulating characteristics. This is something EMA does regularly for customers, not only in our shop, but out in the field as well.
Performing Preventive/Predictive Maintenance on a routine basis where the bus capacitors are inspected should be implemented. After a certain age, or extreme environmental conditions, the bus capacitors should be replaced.
EMA provides PM Services on various makes and models of Medium Voltage Variable Speed Drives including the Siemens Robicon Perfect Harmony MV Series Drives. During our PM one of the many tasks we complete is to inspect the bus capacitors; replacing them when necessary. Being proactive and scheduling regular preventive/predictive maintenance during a scheduled down time will assist in eliminating unnecessary and costly downtime.
For more information on EMA’s Preventive/Predictive Maintenance, Reforming Capacitors, or spare parts please contact Rebecca Zeeuw @ email@example.com
OR Contact us by any of the methods on the right of this page. No One, Anywhere, is Better at Drives (or Bus Caps) than we are.