twoPlusPlus
Industrial
- Jun 8, 2022
- 4
I designed an MCC panel which has this 75hp VFD (Normal Duty) and after getting an Overload fault on the VFD, it just dawned on me that the application needs constant torque.
What can I do to salvage this situation before giving up and replacing the VFD? If let's say I decide to operate the VFD to run on a relatively narrow frequency band (between 40Hz to 55Hz), can I boost the torque in this range to be 60% of max torque at 40Hz and 90% of max torque at 55Hz? Can I do this buy manually setting the V/F ratio across 5 different frequencies?
Or is there any other setting that can be changed? I have a Schneider ATV630 VFD.
I will be trying a bunch of stuff tomorrow, but with the unreal lead times on any parts I even lay my eyes on, this truly is a bad time to make mistakes on sizing a VFD. Which I have managed to do. Any help will be greatly appreciated! And I am looking forward to getting educated here. Thanks!
What can I do to salvage this situation before giving up and replacing the VFD? If let's say I decide to operate the VFD to run on a relatively narrow frequency band (between 40Hz to 55Hz), can I boost the torque in this range to be 60% of max torque at 40Hz and 90% of max torque at 55Hz? Can I do this buy manually setting the V/F ratio across 5 different frequencies?
Or is there any other setting that can be changed? I have a Schneider ATV630 VFD.
I will be trying a bunch of stuff tomorrow, but with the unreal lead times on any parts I even lay my eyes on, this truly is a bad time to make mistakes on sizing a VFD. Which I have managed to do. Any help will be greatly appreciated! And I am looking forward to getting educated here. Thanks!