Quote Originally Posted by EddyCurrent View Post
The reason I suggested changing the parameters is this;

The manual for a Nowforever E100 shows that it uses 12v for the 0-10 input.
The graph shown in the first post of this thread shows that speed error gets worse as the frequency increases.
It suggests to me that the upper frequency setting should be adjusted so that at maximum input voltage to Analogue Input 1, the frequency was such that spindle speed was correct.

Regarding diodes, we used to use this method on reversing roller tables to give a central dead band for the operators, but on some of the newer drives this did not work as planned.
My interpretation of the E100 manual is that - yes - it provides a 12V supply to the speed controller but that the AI1 input still remains expecting a value from 0-10V from 0-100% RPM. That's pretty much backed off with the graph that the OP provided (full RPM at 20000dmd/24000full x 12V(ref) = 10V). Reading the manual the value for the AI1 input is programmable from 0..10V, but not beyond. There is a gain setting that can be applied also, but I'd expect, again, that requires that the AI1 input is limited to 10V. My concern is that the response to the AI1 input will be limited at 10V, and so no amount of scaling applied by the controller in the VFD would counter this.

Of course, remote interpretation of a Chinglish manual is never an exact science.

Ref the diodes / roller table - I guess you're using the forward bias of the diode to generate a dead-band around the pot's central position?, nice idea (strange that modern machines didn't work with that - be interesting to look at the input characteristics of the modern machines - maybe super hi-z could cause some unexpected results. In the OP's case though - driving the interface board down through 3 silicon diodes should generate a reasonably steady voltage drop somewhere around the 2V region.