looking good
Do you have power to run a 7.5 HP motor? If you are on residential power the utility might frown running that large of motor. it is a bunch of inrush amps.
Half rating when connecting 1 PH to a 3 PH motor. 3 PH to 3Ph has no reduced rating.I didn't know about a VFD only being half it's rating. Seems like utter false advertising!
Well, some have a 1 PH to 3PH rating at 100%, but if you look at the rating it will do two times the HP on 3 PH in.Yeah the VFD I got is 1ph to 3ph "15hp"
Wish I'd known that when I was researching on what was needed.Well, some have a 1 PH to 3PH rating at 100%, but if you look at the rating it will do two times the HP on 3 PH in.
Manufacturers play with numbers!
I'm seeing conflicting guidance that says compressors are constant torque loads while others are saying variable torque (like a pump would be). By my lights, the correct answer is somewhere in between. A recip compressor must have *some* sensitivity to outlet pressure in terms of drive torque.
Thank you, Bart.A reciprocating compressor's torque requirement will be vary nearly linearly with output pressure, and be close to constant vs rpm at a fixed pressure. HP is of course torque x rpm (times a constant). With a VFD, as you noted you can get more air output at a lower pressure by spinning the motor faster. Attempts to continuously get more than the rated power out of the motor are a bad idea due to overheating, etc.
I suspect you may be on to something, if the VFD plays along. I have a similar compressor and would love to be able to tune it that way. (But I'm too cheap and there's no way it would make financial sense. The stone knives and bearskins approach works well enough for the girls I used to go out with.)Thank you, Bart.
The SF rating of this motor is 1.15 at 60hz, but I don’t want to tap into that margin intentionally— IMO that is abuse.
I’m a bit conflicted at how much to “push it” with this motor. Experience tells me that industrial products tend to be quite a bit derated for durability. I’m pretty sure that even though the motor as a 14-amp FLA rating (230V), I suspect that the clamp meter will show more like 11a just before it cuts out at 175psi.
I will assume that running the pump and motor drive ratio at the original 5hp/175psig/1725mrpm/710prpm on the VFD will be perfectly safe even with the less capable insulation rating. Because it’s not a cheap motor or compressor and there’s some margin in there.
So initially I was planning to run the VFD at 60hz until it got up to 125psi, at which point the drive would shift it down to 40hz, which is a high enough speed to be above the minimum pump speed (of 400rpm) but is also a lower motor load of about 3hp. The pump would then spin slowly as it topped off from 125psi to 175psi.
While I’m sure that would be a nice and simple but useful arrangement, I’m thinking about how it compares to shifting the motor RPM and pump RPM slightly.
I’m thinking especially of that “constant torque” vs “constant power” side of the characteristic curve. If you want maximum performance, you’d want to have most of your speed range on the “constant power” part. And spinning the motor faster also improves motor cooling.
So what if instead of having the motor soft start to 60hz at low pressure, one instead programmed the VFD to soft start and then crank up the frequency until the motor load got to some amperage, then kick down to a lower frequency at higher pressure?
Thus, instead of having a 60hz/40hz two speed setup, it could be much as 82hz on the bottom, since that’s the maximum rated pump speed of 1050rpm, lowering from that upper limit as the VFD feels necessary to honor a current load limit.
This would be a nice real-world increase in air delivery at lower pressure.
Slightly off topic, but 7.5 HP single phase there are comments about startup, massive inrush current, and the grid/utility not being happy.
Can a soft start/hard start (whichever is the right term) be added like is done for AC units so they can start off a generator?
My 7.5 HP single phase Baldor starts fine at my residence on a 240V50A breaker. Quite a “bang” when the starter fires.
Mine has unloaders so I presume that eases the start somewhat.Good to hear that you also have a 50A breaker.
But, to your question, I don't think so. The nature of the beast. There is a huge inrush of current. The only way to start them on something that can't support the inrush would be to drain the tank so it starts totally unloaded. I notice a huge difference in starting violence when it starts on an empty tank, smooth, like if I went on vacation, vs 125 PSI- violent.
Like you, I have a 7.5 HP baldor and it starts HARD with ~125 PSI when it kicks on. With a bang, like you said. And as I said, it draws 100A+ for a millisecond.
Mine has unloaders so I presume that eases the start somewhat.
If you are near the compressor when it decides to start, it will startle you!
I bought a 15hp vfd for my 15hp Champion compressor.
Guess I'll either put a 5hp pump/motor combo on it (have same as the little pump on the compressor in this topic) or just **** can the whole plan and do something else I guess.
Wish I'd known that when I was researching on what was needed.
The 5hp setup i guess will work, just will be alot if work to plumb.
May just scrap it all and buy a regular 5hp single phase compressor and be done.
20 for a 15hp. But overkill is ok for a 5. Price wasn't much difference and i wouldn't doubt if 20 hp in Chyna is like 5 real hot.So did you buy a 15hp VFD or a 20 HP VFD?
Either one is way overkill for a 5hp setup so why not send whatever you bought back and get one sized correctly for 5hp?
That occurred to me after I posted and I got it pretty much as I wanted:Reverse a woodworking bar type clamp(s) if you have one or two and push them apart.
Or tighten the front left bolt(enough to hold it) on the motor in the pic then use some wood blocks & maybe a pry are to leverage it out on a swivel and tighten the rear right.
Bit of an art with only two hands. And it will usually take a couple attempts to get it nice and square and tight.


Point taken, but I’m not using this thing ******** and a bit of efficiency loss isn’t really consequential for my needs.Here's the trick I used tensioning my Champion:
Mine is an R30A. It's basically two R15s hung off a single crankcase.
I would encourage you to do a bit more to that air pump before you put it back in service. It's very easy to expose the valves on Champion pumps. Air compressor valves often are rusty or sticky or otherwise not quite right. The 15B pump's valves can be individually lapped. If one is too far gone a whole new valve assembly isn't that much money. Anyway, go through your valves for sure. I'm confident you will find it well worth it.
Also, with as much oil as yours had on it, I strongly suspect the seal at the flywheel end of the crankshaft is leaking. Oil leaking there gets blown all over the place by the fan effect of the flywheel. You do have to tear the pump down to where you can replace that seal, but it's well worth it. You can clean the crud off of the top of the pistons while you're in there, and you can make sure the rings in the pistons aren't stuck. None of this is particularly difficult wrenching.
You might consider replacing the air filter element. Yours has probably earned its retirement.
If any of the fins on your intercooler are bent or crushed, just take two small straight screwdrivers and gently straighten them back out. Those are made from pure aluminum which is very malleable. Mine were bad when I got the compressor but after some time straightening them out, they look oh so much better.
Champion parts diagrams are readily available online. There are several reputable vendors who sell parts for Champion pumps. (That's one of the reasons to own a quality US industrial compressor.)
I'm guessing your pistons, rods, wrist pins, rings, crank bearings and centrifugal unloader parts are all still usable. All you should have to buy are valve parts, gaskets and an oil seal. BTW if you do take the crankcase apart to get out the oil seal, don't destroy the seal getting it out. Write down the numbers. Mine was about $40 from the parts vendors but I bought one with the same numbers on ebay for $7.
Come to think of it, I have a spare cylinder gasket or two left over.
metalmagpie
Biggest gain for me was the soft start. Used to dim the lights in the shop with a 5hp single phase now it doesn't flinch with the 7.5hp 3 phase.Since I had some recent experience with a Dwyer Omega PX119 pressure transducer, I had explored the option of using this transducer in lieu of pressure switches/pumptrol type setups.
But ultimately, the PID control and such didn't make much sense, and I still had to have a pressure switch anyway.
A more expensive option perhaps for the future would be combining a pressure transducer along with the switch. This provides the ability to adjust *how* the pump spins up and recovers pressure once it comes on.
But at the end of the day, there's not a huge amount of performance benefit to varying frequency for this application. The soft start/ramp up/down aspect is the primary benefit and a basic Pumptrol on a 40psi cut in/out spread is going to be quite sufficient.
I think my experience will be similar, only at a smaller scale.Biggest gain for me was the soft start. Used to dim the lights in the shop with a 5hp single phase now it doesn't flinch with the 7.5hp 3 phase.
I run it at 50hz unless I need more air and it still produces more than my 5hp did only much quieter.
I will double check when I am home in a couple weeks but I believe it was 3s accel and for decel I left it as coast to a stop which I believe you will want to do as well if you research VFD/air compressors. Nothing to be gained from using the VFD as a brake. I wanted the fairly quick accel because of the centrifugal unloader on mine as well (Devilbiss 432 pump)I think my experience will be similar, only at a smaller scale.
I can probably run mine as more of a 3hp unit. As a home gamer with pretty modest air usage, an 80 gallon tank plus two aux tanks (116 gallons total) will last quite awhile when full pressurized.
By the time I'm at risk of running out of air, the job is done.
What kind of ramp time did you program in? I'm thinking I don't want to be too slow with the centrifugal unloaders. I think I want to spin up in about 3 seconds or so and shut down in 5-8 seconds.
I do like the idea of being able to overspeed somewhat and gain a bit more performance, but the reality check is that even at a steady 60hz this is a massive air upgrade for me and I'm likely never to need that additional performance.


Exactly what I used to determine pulley sizes when I upfitted my trusty old DeVilbissthis app works well in my opinion for determining pulleys ,rpm, spacing etc etc
