How to check the real current of the stepper motor
-
@moth4017 said in How to check the real current of the stepper motor:
Hi , is there a way to check the actual stepper motor current not the reported value of M906
Do you have a multimeter that can measure current? You can connect it in series to one of the stepper coils and then give gcode to move the stepper in very small increments (e.g. equivalents of 1 microstep) until you will get to an angle with maximal current (you can ignore the +/- sign of the meter).
What you will measure will be peak max current. If RRF uses RMS current, divide the peak by 1.41 to find the RMS.
I think that with if you use two current meters you don't need to find the max position and just compute from the two currents.
-
@zapta Hi , i had thourght about this but not sure in the DVM will react quick enough , i do have an old osilascope , may be ill have to fire it up and have a look, was hoping the trinamc drives could report actual current
-
@phaedrux said in How to check the real current of the stepper motor:
sending M906 and M913 by themselves in the console
What do they report?
-
@moth4017 said in How to check the real current of the stepper motor:
M98 P/macros/3zhome
What do you have in that macro?
-
@moth4017 , oscilloscope is tricky for this application because it doesn't measure current and because one of it's wires is grounded.
A simple DVM in amps range should be sufficient because the current is stable when the motor does not move. Have a gcode macro that will move the motor in tiny steps and see when you have the max reading. If you want to get fancy, you can have a bidirectional analog meter like this +/-2A one https://www.aliexpress.com/item/32400650799.html
Edit: just make sure to make all the connections when the printer is off because stepper drivers don't like when motors connect/disconnect under power.
-
@moth4017 , I haven't tried it myself but I believe that running a macro like this one while observing your current meter connected in series to any X or Y stepper coil will allow you to measure the max current.
; Move slowly to identify peak stepper current. ; Assuming XY are already homed. G90 ; absolute positioning G1 X100, Y100 ; starting point G91 ; relative positioning while iterations < 500 echo "Iteration " ^ {iterations} ;G1 X0.001 Y0.001 ; for cartesian printer G1 X0.001 ; for core XY printer G4 P250 ; Wait 250ms G90 ; absolute positioning
-
@phaedrux said in How to check the real current of the stepper motor:
What do they report?
2/20/2022, 2:31:05 PM: Connected to 192.168.0.19
2/20/2022, 2:31:24 PM: M906: Motor current (mA) - X:800, Y:800, Z:600, E:1200, idle factor 30%
2/20/2022, 2:32:40 PM: M913: Motor current % of normal - X:100, Y:100, Z:100, E:100 -
@phaedrux
M400
M569 P0.4:0.5:0.6 V10
G4 P100
M574 Z2 S4
M906 Z300 ; set motor current
G91 ; relative positioning
G1 H2 Z0.2 F3000 ; power up motors to ensure they are not stalled
G4 P100 ; wait 100ms
M400 ; wait for current moves to finishG4 P200
M915 P0.4:0.5:0.6 S0 H10 F0 R0 ; Configure Z-Axis Stall DetectionG4 P200
G91 ; relative positioning
G1 F4000
G1 H1 Z350 ; Home Z-Axis actuators independently
M400 ; make sure everything has stopped before we make changes
M906 Z600 ; Reset motor current
G90 ; absolute positioning
G92 Z301 ; set position
G91 ; relative positoning
M84 ; Motors offthen run
m906
Motor current (mA) - X:800, Y:800, Z:600, E:1200, idle factor 30%
m913
Motor current % of normal - X:100, Y:100, Z:100, E:100 -
@phaedrux
ill give it a try tomorrow. Thanks very much -
@zapta hi was going to do a differentual measurment using 2 channels on the scope with a very small resistor in line e.g 0.01ohms
-
-
@moth4017 said in How to check the real current of the stepper motor:
@zapta hi was going to do a differentual measurment using 2 channels on the scope with a very small resistor in line e.g 0.01ohms
I think that should work, assuming the scope's sensitivity and offset or good enough. You can use x1 probe since bandwidth is not an issue. I got recently an OWON HDS242s for similar applications since it's floats when running on battery. BTW, I just tried here the approach with a Amp meter and very slow movement and it seems to work. I got about 950ma DC max with RRF configured to 1200ma (?).
-
Here is a better macro for measuring current. Simplify connect a current meter in series to one of the stepper coils, turn on the printer, home, run the script, and observe how the current changes slowly between negative and positve max currents.
; Assuming x,y are homed. G1 X100 Y100 ; move to starting point M203 I1 ; allow slow movements G1 X103 F1 ; move both motors slowly, corexy version ; G1 X103 Y103 F1 ; cartesian version
-
@zapta its ok used you first macro
M906 600 measured max 0.5179mA
M906 1000 Measured max 0.6414mAi tried to test the extruder but couldn't get to extrude for some reason
-
@moth4017 said in How to check the real current of the stepper motor:
@zapta its ok used you first macro
M906 600 measured max 0.5179mA
M906 1000 Measured max 0.6414mAi tried to test the extruder but couldn't get to extrude for some reason
values in Amps not mA
-
@moth4017 bear in mind that when the stepper driver is moving slowly, standstill current reduction will kick in.
-
Thanks @dc42. A couple of questions if you don't mind. Having a simple technique to measure actual current would be very useful.
-
The code that @moth4017 used moves 0.001mm every 250ms. Will this kick in the standstill current?
-
What about the code below, will it kick in the standstill current?
G1 X100 Y100 ; move to starting point M203 I1 ; allow slow movements G1 X103 F1 ; move both motors slowly, corexy version
- Any suggestion for a reliable way to measure the actual current using simple means?
-
-
@zapta on the TMC2209, standstill will kick in when the frequency of step pulses is less than approx. 12Hz. So the axis speed below which standstill current reduction kicks in depends on your steps/mm. For example, if you have 100 steps/mm, then 12Hz corresponds to 12/100 mm/sec = 0.12mm/sec = 7.2mm/min.
When measuring motor current you can use M917 to set the standstill current to 100% of the running current for a particular axis. At high currents, on the MB6HC and EXP3HC RRF will impose a maximum standstill current below 100%, but this doesn't apply to the Duet 3 Mini.
-
Thanks @dc42. I updated the macro to disable standstill current reduction and am getting now very consistent current readings, peaking at ~1250ma with 1200ma configuration (good). This is with a Mini 5.
G1 X100 Y100 ; Starting location M203 I1 ; Allow very slow movements M917 X100 Y100 ; Disable standstill current reduction. G1 X103 F1 ; Move slowly. Moves both motors with coreXY
I also ordered this +/-2A meter, may be more visual https://www.aliexpress.com/item/32400650799.html
-
@zapta
M1000 requested measures 0.8379A with you new script -
@zapta
ive deleted the macro that contained
; Move slowly to identify peak stepper current.
; Assuming XY are already homed.G90 ; absolute positioning
G1 X100, Y100 ; starting pointG91 ; relative positioning
while iterations < 500
echo "Iteration " ^ {iterations}
;G1 X0.001 Y0.001 ; for cartesian printer
G1 X0.001 ; for core XY printer
G4 P250 ; Wait 250msG90 ; absolute positioning
but it is still continuously running , where would it be hiding so i can stop it