Editing Using stepping motor with IONI

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==Setting up open loop mode 1==
 
==Setting up open loop mode 1==
In open loop mode (traditional stepper motor mode) uses smooth microstepping of 128 microsteps per one full step. Resolution may be optionally reduced by increasing the {{param|MUL}} value.
 
 
 
In this mode, drive emulates encoder internally and some tuning parameters need to be set to allow operation:
 
In this mode, drive emulates encoder internally and some tuning parameters need to be set to allow operation:
 
;[[MT]] Motor type
 
;[[MT]] Motor type
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:0
 
:0
 
;[[KVI]] Velocity I gain
 
;[[KVI]] Velocity I gain
:700
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:900
 
;[[AFF]] and [[VFF]]
 
;[[AFF]] and [[VFF]]
 
:0
 
:0
 
;[[KPP]] Position P gain
 
;[[KPP]] Position P gain
:10000
+
:150
 
;[[PFF]] Position feed-forward gain
 
;[[PFF]] Position feed-forward gain
 
:100%
 
:100%
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:1000
 
:1000
  
Other settings are not critical and can be configured as desired (such as acceleration and velocity limits). If setpoint scaling is 1:1 ([[MUL]]=[[DIV]]), then this mode yields resolution of 25600 steps/revolution. If reduction of resolution is required, then adjust scaling accordingly (if scaling is set above 4:1, then try also Setpoint smoothing [[CIS]]).
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Other settings are not critical and can be configured as desired (such as acceleration and velocity limits). If setpoint scaling is 1:1 ([MUL]=[DIV]), then this mode yields resolution of 25600 steps/revolution. If reduction of resolution is required, then adjust scaling accordingly (if scaling is set above 4:1, then try also Setpoint smoothing [[CIS]]).
 
{{tip|Use Granity's ''Measure resistance & inductance'' button to automatically set MR and ML}}
 
{{tip|Use Granity's ''Measure resistance & inductance'' button to automatically set MR and ML}}
  
{{download|To save time, you may load [[Media:IONIStepperSettingsTemplate3.drc|this template settings file]] to drive. '''Usage:''' connect to the drive with Granity, and click ''Load settings from file''. After loading the file, just set motor current limits MMC and MCC to match your motor. After saving & restarting drive, use ''Measure resistance & inductance'' button to automatically set MR and ML. }}
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{{download|To save time, you may load [[Media:IONIStepperSettingsTemplate2.drc|this template settings file]] to drive. '''Usage:''' connect to the drive with Granity, and click ''Load settings from file''. After loading the file, just set motor current limits MMC and MCC to match your motor. After saving & restarting drive, use ''Measure resistance & inductance'' button to automatically set MR and ML. }}
  
  
'''NOTE:''' these values and settings apply from '''firmware version 1.5.2''' (1096). For older firmware version settings, see:
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'''NOTE:''' these values and settings apply from '''firmware version 1.2.1 (1064)'''. For older firmware version, check out earlier version of this page [http://granitedevices.com/w/index.php?title=Using_stepping_motor_with_IONI&oldid=4026 here].
* [http://granitedevices.com/w/index.php?title=Using_stepping_motor_with_IONI&oldid=5109 Version 1.2.1 - 1.5.1]
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* [http://granitedevices.com/w/index.php?title=Using_stepping_motor_with_IONI&oldid=4026 Version 1.2.0 and earlier]
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==Setting up closed loop mode 2==
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==Seting up closed loop mode 2==
In this mode, follow parametrization of open loop mode (mode 1) except:
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In this mode, follow parameterization of closed loop mode except:
 
;[[FBD]] Feedback device
 
;[[FBD]] Feedback device
 
:Choose your feedback device (other than None)
 
:Choose your feedback device (other than None)
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:Set your feedback device resolution
 
:Set your feedback device resolution
 
;[[KVI]] and [[KPP]]
 
;[[KVI]] and [[KPP]]
:Tune KVI, VFF, and KPP values (and possibly other gains if non-zero) to have nice response
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:Tune KVI and KPP values (and possibly other gains if non-zero) to have nice response
 
;[[FMO]] Motion fault limit
 
;[[FMO]] Motion fault limit
 
:Set non-zero value (perhaps 100-1000) to cause a fault state when motor stalls
 
:Set non-zero value (perhaps 100-1000) to cause a fault state when motor stalls
  
{{tip|In this mode it might give best response when KVI has been set very low value and Velocity feed-forward VFF tuned to non-zero value. As starting values you may try the ones mentioned in the example below.}}
 
{{tip|One practical system we successfully configured in Mode 2 had following equipment: a typical 200 step/rev stepper, 1 mm/rev lead screw and a 0.1 µm/count resolution linear encoder, we found following well behaving parameters: KVI 2, VFF 40, KPP 150, PFF 100. Especially VFF value should is subject to change significantly when system resolution changes (i.e. encoder or lead screw).}}
 
 
==Setting up servo mode 3==
 
==Setting up servo mode 3==
 
To set-up stepper as servo motor, just follow the [[IONI & IONICUBE user guide]] and consider the stepper motor as servo motor. For a typical 1.8 degree/step two-phase stepping motor the correct motor type parameters are:
 
To set-up stepper as servo motor, just follow the [[IONI & IONICUBE user guide]] and consider the stepper motor as servo motor. For a typical 1.8 degree/step two-phase stepping motor the correct motor type parameters are:
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:2 Phase AC or BLDC
 
:2 Phase AC or BLDC
 
;[[MPC]] Pole count
 
;[[MPC]] Pole count
:100          
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:100
 
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== Optional: reducing motor vibration and noise ==
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IONI firmware 1.5.2 and later supports reduction of stepping motor vibration and noise by the means of parameters TRF1, TRA1, TRF2, and TRA2.
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[[File:Stepperlinearizeparams.png]]
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=== Usage ===
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For typical 2-phase (4, 6 or 8 wire) stepper it is recommended to try TRF1 of Sin(4x).
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# To adjust TRA1 to optimum value, make motor move slowly by setting up test stimulus from Granity Testing page and setting low values into acceleration and velocity limits (CAL and CVL). For example as test stimulus settings, try TSP1=10000, TSD1=0.5, TSP2=0, TSD2=0.5, CAL=1, CVL=1000.
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# While motor is running slowly back and forth, adjust TRA1 until the motor vibration and noise is minimized.
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# Some motors also benefit from using third harmonic of this setting, Sin(12x) which may be enabled by setting it as TRF2 and doing same procedure for finding the optimum TRA2 value.
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'''Note:''' some motors do not receive significant benefit of these settings. In such case, it's recommended to leave these settings disabled (TRF1 & TRF2 = None and TRA1 & TRA2 = 0) to avoid making the smoothness actually worse.
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[[Category:Setup_guides]]
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