Certainly not a good idea - never tried it. But
Susquatch was wondering what one can get away with - or I think he was.
That's a very good way to put it Peter.
To be clear, it's not something I would advocate as it's clearly outside the envelope of how VFDs are supposed to be used.
But I'm always curious about other ways to do things that are unconventional or outside the box.
So I do wonder if it would work, what the limits are, what the issues are, what trouble you could get into, etc.
Thinking about how a VFD works, it's easy to conclude that it's not a good idea to run two or more large motors simultaneously off the same VFD.
When you move those considerations to a large and small motor, it gets a little harder to conclude anything. It might work quite well or it might not. It's possible that the VFD would accommodate the small motor or that it could trick the VFD into thinking something was happening with the big motor that could lead to very bad control outputs. It might work, but without an analysis and/or full diagnostic testing, I'm instinctively against doing it. Ya just because they are both turning one might think it's all running ok, but then again you might be slowly destroying one or both motors or the VFD. I just don't know. I can only speculate. A VFD is a very sophisticated device - much more so than we tend to think.
On the other hand, I think that a purely resistive load like an incandescent light would probably become a constant factor to the VFD that it can easily handle. Again, just speculation.
The best advice I can give is to use them as they are designed to work - with a single motor. In most cases, that is single phase 220 in and 3 phase 220 out. If the input has a neutral, you can run any peripheral devices on either 120 or 220 single phase power out of the main power box (before the VFD) and still have only one power cord and not have any concerns about the VFD or the primary motor.
I suppose there are peripherals that require 3 phase, but single phase is MUCH more common and many of the 3 phase devices are not really 3 phase because internally they only use one leg of the power input. All I'm saying here is that it's silly to convert 1ph to 3ph and then only use 1 of the 3 phases. Better to just go direct.
My own mill is a good case in point. I am currently running two power lines (115 & 230) because my 230 has no neutral. Basically, the guy who built my shop didn't run a neutral for the 230 circuit. My plan is to rewire that circuit with a neutral, bring one cable into a master on/off switch on the back or side of my mill base, run that to a VFD in a main control box beside it (with speed and direction controls up near the motor), and tap into half the 230 after the main power switch to get 115 for my DRO, power feeds, & light.
Same goes for every other 3phase machine in my shop.
Unlike many others, I don't want 440 or 550 in my shop at all. If I did, I'd probably go with an RPC and transformer. But even then I'd probably still want a VFD to get variable speed, braking, and soft start.
