Because that is the speed that they want the machine to run at. The 60hz/1750rpm is just the rating on the motor. That is one feature of a VFD drive control, you can spin the motor at whatever the speed is needed within the operating parameters of the motor. Dig into all the ratings of the motor beyond what is on the motor plate.Hey why would a company program a drive for 69 hz and 2048 rpm when nameplate is 60hz and 1750 rpm? It works fine, they progam all their machines like that. They all work fine that way. Inside joke?
Because they want to run at 2048 rpm?Haha no no. I mean in the parameters for nameplate rating, they don't enter the name plate rating. They enter 69 hz and the async speed of 2048. Im wondering what is the reasoning behind this.
If you enter 60 hz on the drive it will run at 1750 rpm, so why didn't they just set it to that? The machine runs from 25hz to 80hz depending on the load, its runs all over the place. I'm not talking about the setpoint.Because they want to run at 2048 rpm?
Okay so far no one who has replied is a VFD guy lol.
I doubt it.If you enter 60 hz on the drive it will run at 1750 rpm, so why didn't they just set it to that? The machine runs from 25hz to 80hz depending on the load, its runs all over the place. I'm not talking about the setpoint.
60hz 1750 (or 1735 whichever) is the same as 69hz 2048.
I see what you are saying now.If you enter 60 hz on the drive it will run at 1750 rpm, so why didn't they just set it to that? The machine runs from 25hz to 80hz depending on the load, its runs all over the place. I'm not talking about the setpoint.
60hz 1750 (or 1735 whichever) is the same as 69hz 2048.
I don't know why you assume that. I spent a career working on VFD controlled machines and do know a bit about about them. I can only assume that your ignorance of the machine and processes it does gives basis to your vague question...Okay so far no one who has replied is a VFD guy lol.
since i dont work with VFDs very much, can someone explain to me how they are the same?If you enter 60 hz on the drive it will run at 1750 rpm, so why didn't they just set it to that? The machine runs from 25hz to 80hz depending on the load, its runs all over the place. I'm not talking about the setpoint.
60hz 1750 (or 1735 whichever) is the same as 69hz 2048.
since i dont work with VFDs very much, can someone explain to me how they are the same?
Give us specifics on the machine, exactly what parameters are set to 69hz and where this 69hz is specified and who specified it.
So then it's not the same?All a VFD does is change the input frequency provided to the motor. So if the motor has a nameplate RPM of 1750 RPM at 60 Hz (which is a 4 pole motor) if you were to bump the frequency up to 69 Hz the RPM would be around 2070 RPM. Ideal RPM for a 4 pole motor at 60 Hz is 1800 RPM.
NS = 120 * f / p
NS would be your RPM. f would be the input frequency and p would be the poles of the motor.
So then it's not the same?
No the frequency changes if it's blowing down, or near the set point. On restart the frequency can be whatever the demand is.The likely reason, depending on the drive used, is that the drives default speed is set to the motor default, so the parameter was changed to have to drive "default" on startup / after power loss to a set speed other than the nameplate rating of the motor., thus defaulting the output of the drive to adjust output frequency upon startup.
This is exactly what I'm looking for. Why did the engineer at Eaton set up the drive for 69 hz 2048 rpm in the nameplate parameters.Most likely, back in the mists of time, someone fairly bright, and with an understanding of the process, commissioned a machine, probably in consultation with the tech experts from the motor manufacturer and the VFD manufacturer.
This is likely the case. Could be an artifact of another machines settings even.I'm guessing a few too many cooks in the kitchen and somebody didn't know what they were doing.
Frankly, knowing the equipment and the controls architecture does matter. Being obtuse about that fact will not help get you the answer you are looking for. Also what voltage is this drive / motor combination?Knowing what equipment it is doesn't matter. These arent parameters for the process.
It absolutely does matter. Setting the nameplate frequency higher than it actually is on the VFD has the effect of shifting the V/Hz curve. It will reduce the voltage the motor sees at all frequencies below 69Hz. This reduces the maximum torque at a given RPM and will increase part-load efficiency.This is exactly what I'm looking for. Why did the engineer at Eaton set up the drive for 69 hz 2048 rpm in the nameplate parameters.
Knowing what equipment it is doesn't matter. These arent parameters for the process.