Microstepping in relation to deviation?

jackatom74

My build is a 1m delta and I am stuck at .045 being the lowest deviation I can achieve. I am currently running 1/32 microstepping with interpolation on .9 NEMA 23 motors. Would there be any benefit to dropping to 1/16 with interpolation.
(On another thread I read about adjusting belt tightness, and plan to do that tonigt)

One other question, can anyone explain deviation and how it is calculated?

Phaedrux

Interpolation only works with 16 microsteps.

dc42

With x16 microstepping and 0.9deg motors, the theoretical resolution is 5um using 16 tooth pulleys (200 steps/mm). That's quite a lot less than the 45um deviation you are getting, so using higher microstepping is unlikely to help. I get around 25um deviation with this setup, using linear rails and Smart Effector.

Deviation visit the root mean square average of the height error at the probe points.

jackatom74

@dc42 I am using 20 tooth pulleys and have set my steps accordingly, is there possible benefit to me using 16?

Phaedrux

You get to use interpolation

timcurtis67

@phaedrux said in Microstepping in relation to deviation?:

You get to use interpolation

To avoid confusion, I believe @jackatom74 is refering to a 16 tooth pulley. Not 1/16 microstepping.

Phaedrux

@timcurtis67 I guess I shouldn't browse the forum before coffee.

timcurtis67

@Phaedrux Yeah I do that all the time...

jackatom74

@dc42 said in Microstepping in relation to deviation?:

Deviation visit the root mean square average of the height error at the probe points.

Thank You DC42, Something clicked in my head and I went back and looked at the the repeatably of my trigger height and started messing with the smart effector sensitivity. Correcting this fixed everything. I am around 20um deviation now, Also thank you to everyone else who lent me their guidance.