Macro for "automatic" calibration of BL Touch

User3D

@OwenD said in Macro for "automatic" calibration of BL Touch:

I fail to see why you'd need to raise it further, but you can of course modify it to suit yourself.

I don't want it to be raised further. I said it considering case when axes are not homed. In this case , you home them all. If after homing , Z is at zero and you move X Y to centre then doing so might cause damage... thats all I meant!

OwenD

@OwenD said in Macro for "automatic" calibration of BL Touch:

;Calibrate BL Touch

Fair enough.
Given that you need to be in front of the machine to set zero, that didn't raise as a concern as I wouldn't expect the nozzle to remain at zero at the end of homeall.g , but that scenario can easily be catered for by moving the check that the head is at or above dive height to before the move to the center of the bed.

;Calibrate BL Touch

; Reprap firmware version 3.3b2 or later required!

 

; if two speed probing is configured in M558,we probably want to reduce the speed for this test

var ProbeSpeedHigh = sensors.probes[0].speeds[0]*60 ; Speeds are saved in mm/sec in the object model but M558 uses mm/min

var ProbeSpeedLow = sensors.probes[0].speeds[1]*60

 

 

M558 F60 ; reduce probe speed to 60mm/min for accuracy - adjust F parameter as required

 

;define some variables to store readings

 

var NumTests=10 ; modify this value to define number of tests

 

; Do not change below this line

var RunningTotal=0

var Average=0

var Lowest=0

var Highest=0

 

 

; If the printer hasn't been homed, home it

if !move.axes[0].homed || !move.axes[1].homed || !move.axes[2].homed

  G28

else

	G1 Z{sensors.probes[0].diveHeight} F360 ; if axes homed move to dive height

 

M561 ; clear any bed transform

 

M290 R0 S0 ; clear babystepping

 ;ensure you have room for the probe

if move.axes[2].machinePosition < sensors.probes[0].diveHeight

	G1 Z{sensors.probes[0].diveHeight}

; move nozzle to centre of bed

G1 X{(move.axes[0].min + move.axes[0].max)/2} Y{(move.axes[1].min + move.axes[1].max)/2}

 

M564 S0 H0 ; Allow movement beyond limits

 



M280 P0 S160 I1 ; reset BL Touch

G4 S0.5

M98 P"0:/sys/retractprobe.g" ; Ensure probe is retracted & reset

G4 S0.5

M561 ; clear any bed transform

; Jog head to position

M291 P"Jog nozzle to touch bed" R"Set nozzle to zero" S3 Z1

 

G92 Z0 ; set Z position to zero

M291 P"Press OK to begin" R"Ready?" S3;

 

; Move probe over top of same point that nozzle was when zero was set

G1 Z{sensors.probes[0].diveHeight}; lift head

G1 X{move.axes[0].machinePosition - sensors.probes[0].offsets[0]} Y{move.axes[1].machinePosition - sensors.probes[0].offsets[1]} F1800

 

echo "Current probe offset = " ^ sensors.probes[0].triggerHeight ^ "mm"

 

; carry out 10 probes (or what is set in NumTests variable)

 

while iterations < var.NumTests

	G1 Z{sensors.probes[0].diveHeight} ; move to dive height

	if sensors.probes[0].value[0]=1000 ; if probe is in error state

		echo "Probe in error state- resetting"

		M280 P0 S160 I1 ; reset BL Touch

		G4 S0.5

		M98 P"0:/sys/retractprobe.g" ; Ensure probe is retracted & reset

		G4 S0.5

	G30 S-1

	M118 P2 S{"Test # " ^ (iterations+1) ^ " Triggered @ " ^ move.axes[2].machinePosition ^ "mm"} ; send trigger height to Paneldue console

	M118 P3 S{"Test # " ^ (iterations+1) ^ " Triggered @ " ^ move.axes[2].machinePosition ^ "mm"} ; send trigger height to DWC console

 

	if iterations == 0

		set var.Lowest={move.axes[2].machinePosition} ; set the new lowest reading to first probe height

		set var.Highest={move.axes[2].machinePosition} ; set the new highest reading to first probe height

 

	if move.axes[2].machinePosition < var.Lowest

		set var.Lowest={move.axes[2].machinePosition} ; set the new lowest reading

		;M118 P3 S{"new low reading = " ^ move.axes[2].machinePosition} ; send trigger height to DWC console

		G4 S0.3

	if move.axes[2].machinePosition > var.Highest

		set var.Highest={move.axes[2].machinePosition} ; set the new highest reading

 

		;M118 P3 S{"new high reading = " ^ move.axes[2].machinePosition} ; send trigger height to DWC console

		G4 S0.3

	set var.RunningTotal={var.RunningTotal + move.axes[2].machinePosition} ; set new running total

	;M118 P3 S{"running total = " ^ var.RunningTotal} ; send running total to DWC console

	G4 S0.5

set var.Average = {(var.RunningTotal - var.Highest - var.Lowest) / (var.NumTests - 2)} 	; calculate the average after discarding th ehigh & low reading

 

;M118 P3 S{"running total = " ^ var.RunningTotal} ; send running total to DWC console

;M118 P3 S{"low reading = " ^ var.Lowest} ; send low reading to DWC console

;M118 P3 S{"high reading = " ^ var.Highest} ; send high reading to DWC console

M118 P2 S{"Average excluding high and low reading = " ^ var.Average} ; send average to PanelDue console

M118 P3 S{"Average excluding high and low reading = " ^ var.Average} ; send average to DWC console

 

G31 P500 Z{var.Average} ; set Z probe offset to the average reading

M564 S0 H1 ; Reset limits

M558 F{var.ProbeSpeedHigh}:{var.ProbeSpeedLow} ; reset probe speed to original

G1 Z{sensors.probes[0].diveHeight} F360 ; move head back to dive height

M291 P{"Trigger height set to : " ^ sensors.probes[0].triggerHeight  ^ " OK to save to config-overide.g, cancel to use until next restart"} R"Finished" S3

M500 P31 ; optionally save result to config-overide.g

jeloneal

@owend maybe it makes sense to preheat the nozzle near working temperature before probing? That would compensate for any heat expansion related discrepancies. At least I do that normally when setting Z-offset manually.

psychotik2k3

@jeloneal honnestly i just used that macro i think this is a good start to set up the bltouch parameter, and after that you jsut set the baby step to get correct adjustement.
i did it for my 3 tool heads on my printer

littlehobbyshop

I've only just discovered this and it works great, however the M564 command at the end needs to be changed to

M564 S1 H1

Otherwise the printer can still be moved outside of the axis.

danzaywer

@owend said in Macro for "automatic" calibration of BL Touch:

var ProbeSpeedHigh = sensors.probes[0].speeds[0]*60 ; Speeds are saved in mm/sec in the object model but M558 uses mm/min var ProbeSpeedLow = sensors.probes[0].speeds[1]*60

Object model say mm/s but the stored value seems to be in mm/min

OwenD

@danzaywer

The object model and config.g now save the probe speeds in mm/min, so no conversion is necessary.
Not sure when that changed.
Original version would have left probe speed at incorrect value until config.g was run again.

This is an amended version with corrections suggested by users above,

;Calibrate BL Touch
; Reprap firmware version 3.3b2 or later required!

; if two speed probing is configured in M558,we probably want to reduce the speed for this test
var ProbeSpeedHigh = sensors.probes[0].speeds[0] ; save currently configured speed for fast probe
var ProbeSpeedLow = sensors.probes[0].speeds[1] ; save currently configured speed for slow probe


M558 F60 ; reduce probe speed to 60mm/min for accuracy - adjust F parameter as required

;define some variables to store readings

var NumTests=10 ; modify this value to define number of tests

; Do not change below this line
var RunningTotal=0
var Average=0
var Lowest=0
var Highest=0


; If the printer hasn't been homed, home it
if !move.axes[0].homed || !move.axes[1].homed || !move.axes[2].homed
  G28
else
	G1 Z{sensors.probes[0].diveHeight} F360 ; if axes homed move to dive height

M561 ; clear any bed transform

M290 R0 S0 ; clear babystepping

; move nozzle to centre of bed
G1 X{(move.axes[0].min + move.axes[0].max)/2} Y{(move.axes[1].min + move.axes[1].max)/2} F3600

M564 S0 H0 ; Allow movement beyond limits

;ensure you have room for the probe
if move.axes[2].machinePosition < sensors.probes[0].diveHeight
	G1 Z{sensors.probes[0].diveHeight}
M280 P0 S160 I1 ; reset BL Touch
G4 S0.5
M98 P"0:/sys/retractprobe.g" ; Ensure probe is retracted & reset
G4 S0.5
M561 ; clear any bed transform
; Jog head to position
M291 P"Jog nozzle to touch bed" R"Set nozzle to zero" S3 Z1

G92 Z0 ; set Z position to zero
M291 P"Press OK to begin" R"Ready?" S3;

; Move probe over top of same point that nozzle was when zero was set
G1 Z{sensors.probes[0].diveHeight}; lift head
G1 X{move.axes[0].machinePosition - sensors.probes[0].offsets[0]} Y{move.axes[1].machinePosition - sensors.probes[0].offsets[1]} F1800

echo "Current probe offset = " ^ sensors.probes[0].triggerHeight ^ "mm"

; carry out 10 probes (or what is set in NumTests variable)

while iterations < var.NumTests
	G1 Z{sensors.probes[0].diveHeight} ; move to dive height
	if sensors.probes[0].value[0]=1000 ; if probe is in error state
		echo "Probe in error state - resetting"
		M280 P0 S160 I1 ; reset BL Touch
		G4 S0.5
		M98 P"0:/sys/retractprobe.g" ; Ensure probe is retracted & reset
		G4 S0.5
	G30 S-1
	M118 P2 S{"Test # " ^ (iterations+1) ^ " Triggered @ " ^ move.axes[2].machinePosition ^ "mm"} ; send trigger height to Paneldue console
	M118 P3 S{"Test # " ^ (iterations+1) ^ " Triggered @ " ^ move.axes[2].machinePosition ^ "mm"} ; send trigger height to DWC console

	if iterations == 0
		set var.Lowest={move.axes[2].machinePosition} ; set the new lowest reading to first probe height
		set var.Highest={move.axes[2].machinePosition} ; set the new highest reading to first probe height

	if move.axes[2].machinePosition < var.Lowest
		set var.Lowest={move.axes[2].machinePosition} ; set the new lowest reading
		;M118 P3 S{"new low reading = " ^ move.axes[2].machinePosition} ; send trigger height to DWC console
		G4 S0.3
	if move.axes[2].machinePosition > var.Highest
		set var.Highest={move.axes[2].machinePosition} ; set the new highest reading

		;M118 P3 S{"new high reading = " ^ move.axes[2].machinePosition} ; send trigger height to DWC console
		G4 S0.3
	set var.RunningTotal={var.RunningTotal + move.axes[2].machinePosition} ; set new running total
	;M118 P3 S{"running total = " ^ var.RunningTotal} ; send running total to DWC console
	G4 S0.5
set var.Average = {(var.RunningTotal - var.Highest - var.Lowest) / (var.NumTests - 2)} 	; calculate the average after discarding th ehigh & low reading

;M118 P3 S{"running total = " ^ var.RunningTotal} ; send running total to DWC console
;M118 P3 S{"low reading = " ^ var.Lowest} ; send low reading to DWC console
;M118 P3 S{"high reading = " ^ var.Highest} ; send high reading to DWC console
M118 P2 S{"Average excluding high and low reading = " ^ var.Average} ; send average to PanelDue console
M118 P3 S{"Average excluding high and low reading = " ^ var.Average} ; send average to DWC console

;suggest new G31 values
echo "suggested edit for G31 in config.g if not saved to config-overide.g"
echo "change G1 Z parameter from Z" ^ sensors.probes[0].triggerHeight 
echo "to Z" ^ var.Average

G31 P500 Z{var.Average} ; set Z probe offset to the average reading
M564 S1 H1 ; Reset limits
M558 F{var.ProbeSpeedHigh}:{var.ProbeSpeedLow} ; reset probe speed to original
G1 Z{sensors.probes[0].diveHeight} F360 ; move head back to dive height

M291 P{"Trigger height set to : " ^ sensors.probes[0].triggerHeight  ^ " OK to save to config-overide.g, cancel to use until next restart"} R"Finished" S3
M500 P31 ; optionally save result to config-overide.g

zapta

@owend, do we have a place to collect those useful user contributed scripts?

OwenD

@zapta
This section of the forum is for both posting macros and asking about conditional g-code and meta commands.
It is a little hard to "browse" though.

There are a couple of github repositories mentioned here
https://duet3d.dozuki.com/Wiki/Macros#Section_Repository

I have put most of my macros and associated printer config files here
https://github.com/owendare/RepRapFirmware-Macros

It would make sense to do pull requests to a single repository to allow people to find things easier.
file naming conflicts may arise and dependencies could be an issue in that instance.
edit: It looks like sub folders are created to avoid that

Phaedrux

@owend said in Macro for "automatic" calibration of BL Touch:

There are a couple of github repositories mentioned here
https://duet3d.dozuki.com/Wiki/Macros#Section_Repository

Those might be the most official ones to use.

I've been thinking of the best way to collect and share them on the forum. Having a dedicated forum section is one option, but then I think it would likely end up just being a duplicate of this forum section. So then I thought maybe having a more curated collection as a single pinned thread in this section with links to the thread for the individual macros. Or another option, maybe adding a section to the community projects section for gcode programs.

https://duet3d.dozuki.com/c/Community_Projects

What do you think?

OwenD

@phaedrux
A central GitHub repository such as that which is in place, seems on the surface to be suitable.
Except that the ultimate goal of a repository is to merge all submissions into a single common code base.
That's fine excepting for cases where there may be several different valid approaches to a task which require the file to have the same filename.
Branches can cater to that somewhat bit become difficult for people to navigate to find what they want.
Plus it creates just one more job that someone at Duet has to do (acting on pull requests etc)

Perhaps contributors should just create their own repositories and they can be listed in community projects as you suggest?

The ideal solution would be a browse-able directory tree where macros could be placed.
At the top level would be links based on intended kinematics, category and description.
But I can't think how to implement that without an FTP server and/or database , which opens up a whole other can of worms.

The up side of the current situation (leaving it on the forum) is that it allows easy peer review and comments on submitted macros.
This is probably worth the extra time it may take in finding what you want as there will inevitably be errors and revisions required for different reasons.
New users will obviously be looking for drop-in solutions, but the reality is that there are to many variables in printer configuration and hardware to make any submitted macro more than a starting point that will require review and modification by them before use.
Leaving it here probably forces them to learn more.

zapta

@owend, FYI, this is how the Voron community does it. A single github repository with a directory for each contributing user. Users can clone the repository, develop in their own copy and then submit a pull request to the maintainers.

Users that don't want to deal with github can just submit their files to the maintainers.

https://github.com/VoronDesign/VoronUsers/tree/master/printer_mods

OwenD

I've revised the main macro yet again and submitted a pull request on the github repository.
This mod is to allow parameters to be passed to it for speeds, nozzle & bed temps etc.
This is shown in the macro call_calibrate.g
If no parameters are passed or the macro is run directly, the default values will be used.

I've also added some error & sanity checking.

calling macro/command

; call_calibrate_BLtouch.g
; should be located in same folder as calibrate_BLtouch.g
; Reprap firmware version 3.3b2 or later required!
; If macro is called using parameters these will be used in testing
; If any parameters are omitted, the default values will be used.
; parameters which can be passed are
; T - Tool to use
; B - bed temperature to use
; R - Nozzle temperature to use (may be turned off before probing commences if configuerd to do so in config.g)
; P - probe number to use
; F -  X/Y travel speed to use (in mm/sec)
var F = 80
; Z - Z travel speed to use
var Z = 6
; S - Probe speed to use (in mm/sec)
var S = 1
; I - Number of times to probe (high and low value will be discarded)
; the following variables are re-set at run time
var R = 0
var B = 0
var T = 0
var P = 0
var maxBedTemp = floor(heat.heaters[heat.bedHeaters[0]].max) 
var I = 10 ; default number of probes (two extra will be done and high/low discarded)
var choice = 0
M291 S5 R"Tool" P"Select Tool Number" L0 H{#tools-1} F0 J1
set var.T = input
var Heater = tools[var.T].heaters[0]
var maxTemp = floor(heat.heaters[var.Heater].max)
echo "maxTemp="^var.maxTemp
var minTemp = floor(heat.coldExtrudeTemperature + 5)
echo "minTemp="^var.minTemp
M291 S4 R"Heat" P"Heat tool/bed ?" K{"None","Nozzle only","Bed only","Both",} F0 J1
set var.choice = input
if var.choice!=0
	;echo "Heat choice " ^ var.choice
	if (var.choice = 1) || (var.choice = 3)
		;echo var.minTemp
		;echo var.maxTemp
		M291 S6 R"Nozzle temp" P"Set temperature for nozzle" L{var.minTemp} H{var.maxTemp} F{var.minTemp} J1
		set var.R = floor(input)
	if (var.choice = 2) || (var.choice = 3)
		M291 S6 R"Bed temp" P"Set temperature for bed" L0 H{var.maxBedTemp} F40 J1
		set var.B = floor(input)
if #sensors.probes > 1
	M291 S5 R"Probe" P"Select probe" L0 H{#sensors.probes-1} F0 J1
	set var.P = input
M291 S5 R"Cycles" P"Enter number of cycles to sample" L3 H22 F{var.I} J1
set var.I = input + 2
;echo "M98 P0:/macros/bl_touch/calibrate_BLtouch.g B"^{var.B}^" T"^{var.T}^" R"^{var.R}^" P"^{var.P}^" F"^{var.F}^" Z"^{var.Z}^" S"^{var.S}^" I"^{var.I}

if state.atxPower = false
	M80
G4 S1
; If the printer hasn't been homed, home it
if !move.axes[0].homed || !move.axes[1].homed || !move.axes[2].homed
	echo "Homing - please wait"
	G28
	M400
M98 P"0:/macros/bl_touch/calibrate_BLtouch.g" B{var.B} T{var.T} R{var.R} P{var.P} F{var.F} Z{var.Z} S{var.S} I{var.I}

revised macro

;Calibrate BL Touch - (modified to use arrays.  requires RRF3.5b2 or later)
; If macro is called using parameters these will be used in testing
; parameters which can be passed are
; T - Tool to use
; B - bed temperature to use
; R - Nozzle temperature to use (may be turned off before probing commences if configuerd to do so in config.g by M558 B1)
; P - probe number to use
; F -  X/Y travel speed to use (in mm/sec)
; Z - Z travel speed to use
; S - Probe speed to use (in mm/sec)
; I - Number of times to probe (high and low value will be discarded)

var NumTests = 10 ; modify this value to define default number of tests
var travelSpeed = 3600 ; modify this value to define the default travel speed in mm/min
var ZtravelSpeed = 360 ; modify this value to define default Z travel speed in mm/min (not probe speed)
var probeSpeed = 60 ; modify this value to define default Z travel speed during probing in m/min
var ProbePointX = (move.axes[0].min + move.axes[0].max)/2 ; modify to specify the X probe point.
var ProbePointY = (move.axes[1].min + move.axes[1].max)/2 ; modify to specify the Y probe point.
var ThisTool=0 ; default tool to use

; Do not change below this line

if exists(param.T)
	set var.ThisTool=param.T

var bedTemp = 0 ; default to not heating bed
if exists(param.B)
	set var.bedTemp = param.B

if !(var.bedTemp >=0) || (var.bedTemp > heat.heaters[heat.bedHeaters[0]].max)
	abort "invalid bed temp - test aborted"

var nozzleTemp = 0 ; default to not heating nozzle
if exists(param.R)
	if !exists(param.T)
		abort "Nozzle temp set, but no tool specified"
	set var.nozzleTemp = param.R

if !(var.nozzleTemp >= 0) || (var.nozzleTemp > heat.heaters[tools[var.ThisTool].heaters[0]].max); validate temp
	abort "Invalid nozzle temp - test aborted"

var probeNumber = 0
if exists(param.P)
	set var.probeNumber = param.P

if (var.probeNumber > #sensors.probes - 1) || (var.probeNumber < 0) ; validate probe number
	echo "Invalid probe number (" ^ var.probeNumber ^ ") , test will be carried out using probe 0"
	set var.probeNumber = 0

if exists(param.I)
	if param.I<=2
		abort "I parameter must be > 2 - Test aborted"
	else
		set var.NumTests = param.I

var probeResults = vector(var.NumTests,0)

if exists(param.F)
	set var.travelSpeed = param.F * 60

if exists(param.Z)
	set var.ZtravelSpeed = param.Z * 60

if exists(param.S)
	set var.probeSpeed = param.S * 60
	if var.probeSpeed <=0 ; validate
		set var.probeSpeed = 60 ; set to 1mm/sec if invalid parameter passed

; if two speed probing is configured in M558,we probably want to reduce the speed for this test
var ProbeSpeedHigh = sensors.probes[0].speeds[0] ; save currently configured speed for fast probe
var ProbeSpeedLow = sensors.probes[0].speeds[1] ; save currently configured speed for slow probe

; validate probe speed
if var.probeSpeed > var.ProbeSpeedLow
	var ErrorMsg = "Probe speed (" ^ var.probeSpeed ^ "mm/min) is set higher than defined in config.g (" ^ var.ProbeSpeedLow ^ "mm/min) Continue?"
	M291 S3 R"Warning" P{var.ErrorMsg} 


M558 F{var.probeSpeed} ; reduce probe speed for accuracy 


var RunningTotal=0
var Average=0


if (var.nozzleTemp > 0) || (var.bedTemp > 0)
	if exists(param.T)
		if param.T > {#tools - 1}
			abort "Invalid T parameter - cannot be higher than " ^ {#tools - 1}
		T{var.ThisTool} ; select the tool passed
	else 
		T0 ; default to T0
	if (var.nozzleTemp > 0)
		M568 P{var.ThisTool} S{var.nozzleTemp} S{var.nozzleTemp} A2 ; set active temperatures for tool 
	if (var.bedTemp > 0)
		M140 H0 S{var.bedTemp}

if state.gpOut[0].pwm<0.035 ; check if probe is already deployed
	echo "Probe is already deployed - retracting"
	M280 P0 S80 ; retract BLTouch
	G4 S0.5

if sensors.endstops[2].triggered ; check if probe is already triggered
	echo "Probe is already triggered - resetting"
	M280 P0 S160 ; reset BL Touch
	G4 S0.5

if sensors.probes[0].value[0]=1000 ; check if probe is in error state
	echo "Probe in error state - resetting"
	M280 P0 S160 I1 ; reset BL Touch
	G4 S0.5
	M280 P0 S80 ; retract BLTouch
	G4 S0.5

M561 ; clear any bed transform

M290 R0 S0 ; clear babystepping

; If the printer hasn't been homed, home it
if !move.axes[0].homed || !move.axes[1].homed || !move.axes[2].homed
	echo "Homing - please wait"
	G28
	M400
else
	G1 Z{sensors.probes[0].diveHeights[0]} F{var.ZtravelSpeed} ; if axes homed move to dive height
M400
M291 P{"Press OK to move to probe point X" ^ floor(var.ProbePointX) ^ " Y" ^ floor(var.ProbePointY)} R"Ready?" S3;
; move nozzle to defined probe point
G1 X{var.ProbePointX} Y{var.ProbePointY} F{var.travelSpeed}

if (var.nozzleTemp > 0) || (var.bedTemp > 0)
	echo "Waiting for temps to stabilise"
	M116 ; wait for temps

M564 S0 H0 ; Allow movement beyond limits

;ensure you have room for the probe
if sensors.probes[0].lastStopHeight < sensors.probes[0].diveHeights[0]
	G1 Z{sensors.probes[0].diveHeights[0]} F{var.ZtravelSpeed}
	

; Notify user to jog nozzle to start position
M291 P"Jog nozzle to touch bed" R"Set nozzle to zero" S3 Z1

G92 Z0 ; set Z position to zero
M291 P"Press OK to begin probing" R"Ready?" S3;

; Move probe over top of same point that nozzle was when zero was set
G1 Z{sensors.probes[0].diveHeights[0]} F{var.ZtravelSpeed}; lift head
G1 X{move.axes[0].machinePosition - sensors.probes[0].offsets[0]} Y{move.axes[1].machinePosition - sensors.probes[0].offsets[1]} F{var.travelSpeed}

echo "Current probe offset = " ^ sensors.probes[0].triggerHeight ^ "mm"

; carry out 10 probes (or what is set in NumTests variable)

while iterations < var.NumTests
	G1 Z{sensors.probes[0].diveHeights[0]} F{var.ZtravelSpeed}; move to dive height
		
	if state.gpOut[0].pwm<0.035
		echo "Probe ia already deployed - retracting"
		M280 P0 S80 ; retract BLTouch
		G4 S0.5
	if sensors.endstops[2].triggered
		echo "Probe ia already triggered - resetting"
		M280 P0 S160 ; reset BL Touch
		G4 S0.5
	if sensors.probes[0].value[0]=1000 ; if probe is in error state
		echo "Probe in error state - resetting"
		M280 P0 S160 I1 ; reset BL Touch
		G4 S0.5
		M280 P0 S80 ; retract BLTouch
		G4 S0.5
	G30 S-1 ; do probe at current point
	M118 P2 S{"Test # " ^ (iterations+1) ^ " Triggered @ " ^ sensors.probes[0].lastStopHeight ^ "mm"} ; send trigger height to Paneldue console
	M118 P3 S{"Test # " ^ (iterations+1) ^ " Triggered @ " ^ sensors.probes[0].lastStopHeight ^ "mm"} ; send trigger height to DWC console
	set var.probeResults[iterations] = sensors.probes[0].lastStopHeight
	set var.RunningTotal={var.RunningTotal + var.probeResults[iterations]} ; set new running total

set var.Average = {(var.RunningTotal - max(var.probeResults) - min(var.probeResults)) / (var.NumTests - 2)} 	; calculate the average after discarding the high & low reading
M118 P2 S{"Average excluding high and low reading = " ^ var.Average} ; send average to PanelDue console
M118 P3 S{"Average excluding high and low reading = " ^ var.Average} ; send average to DWC console
echo "High reading =", max(var.probeResults) , " : Low reading =", min(var.probeResults)
echo "Trigger values: " , var.probeResults

;suggest new G31 values
echo "suggested edit for G31 in config.g if not saved to config-overide.g"
echo "change G31 Z parameter from Z" ^ sensors.probes[0].triggerHeight ^ " to Z" ^ var.Average

G31 P500 Z{var.Average} ; set Z probe offset to the average reading
M564 S1 H1 ; Reset limits
M558 F{var.ProbeSpeedHigh}:{var.ProbeSpeedLow} ; reset probe speed to original
G1 Z{sensors.probes[0].diveHeights[0]} F{var.ZtravelSpeed} ; move head back to dive height

if var.bedTemp > 0
	M140 R0 S0 ; set bed to zero
	M140 S-276 ; turn off bed
if (var.nozzleTemp > 0) && (state.currentTool >-1)
	M568 R0 S0 ; set heater to zero
	M568 A0 ; turn off heater on current tool

M291 P{"Trigger height set to : " ^ sensors.probes[0].triggerHeight  ^ "mm. Press OK to save to config-overide.g, cancel to use until next restart"} R"Finished" S3
M500 P31 ; optionally save result to config-overide.g

M291 P{"Reload config.g to restore defaults?"} R"Restore?" S3
M98 P"0:/sys/config.g"

calibrate_BLtouch.g call_calibrate_BLtouch.g

SACRED SERPENT

Im late to the party but how do i use this macro do i add it to the macro section or the config section ?

OwenD

@sacred-serpent
You would typically put it in the macros folder