Firmware 2.03beta2 available

NicoLab28

M290 is for baby stepping.
I'm talking about blocking tool change macro with a message using trigger and M582.
When we put M291 command in trigger#.g

https://forum.duet3d.com/topic/8381/m291-s2-does-not-block-macro-execution

dc42

My mistake, M291 is for displaying messages and optionally waiting for a response.

What are you trying to use M291 in a trigger to do?

NicoLab28

Interrupt the tool change macro, to make a manual intervention, and resume.

In tfree.g tpre.g or tpost.g, if we make an M582, then an M291 in trigger # .g the message arrives after the end of the tool change.

As a result, the problem could not be resolved

pawPrinter

CoreXY working well here, along with leadscrew bed levelling and sensorless homing

dc42

@pawprinter said in Firmware 2.03beta2 available:

CoreXY working well here, along with leadscrew bed levelling and sensorless homing

Thanks for your feedback.

pkos

One note from me (just in case you didn't notice this in the other thread) - I've been having quite a bit of issues with the metadata readout from Slic3r PE generated files. More often than not, I don't get info about object height and other parameters. I don't know what the rule is. Headers and footers of both good and bad files seem to be pretty much the same.

dc42

@pkos said in Firmware 2.03beta2 available:

One note from me (just in case you didn't notice this in the other thread) - I've been having quite a bit of issues with the metadata readout from Slic3r PE generated files. More often than not, I don't get info about object height and other parameters. I don't know what the rule is. Headers and footers of both good and bad files seem to be pretty much the same.

Can you provide samples of files that don't work? Or if you have already done so, point me towards that thread.

pkos

@dc42 Here you go.
https://forum.duet3d.com/topic/8440/rrf-2-02-slic3r-pe-1-41-2-filament-used-and-print-times-wrong

I can generate loads of these.

So far, I have 8 files on my Duet. 6 don't have the data displayed (also in the new UI, which is actually causing errors thrown in the new UI) and 2 good ones.

I did upload just the header/footer, but if you need the whole thing, let me know and I'll get it all going.

kraegar

2.03b2 is working great on the RailCore for me. 3 z leveling works fine, corexy motion is good. Thumbs up so far!

gavatron3000

CoreXZ also working normally

dc42

@gavatron3000 said in Firmware 2.03beta2 available:

CoreXZ also working normally

Thanks!

oliof

I upgraded the MPSCARA bot we're discussing elsewhere to 2.03beta2, and behavior is stable.

gideon

hello I just updated the firmware to 2.03, I had an older version more 2.00
now the next I have a corexy homex, homy, homez do not work well anymore, seems like everything goes the other way,
home all does not work anymore,
who can tell me what I am doing wrong M669 only used it because I had to think that I would miss some things again,
who can help me

; homez.g
; called to home the Z axis
;
T0; select tool
G91
M280 P3 S160 I1; relative coordinates
G1 S1 Z0 F2000, lower bed
G4 P500, wait for the bed to lower
G90: absolute positioning
G1 S1 X200 Y200 F3000, move to center
M401, deploy the probe
G30, calibrate Z-axis
M402; Retract Probe

; homey.g
M915 X Y S3 F0 R0; configure stall detection
M574 X1 Y1 S3; set endstops to use motor stall
M913 X50 Y50; reduce motor current to 50% to prevent belts slipping
G91; use relative positioning
G1 S1 Z0 F2000; lower bed
G1 S1 Y-400 F3600; course home Y
G1 S1 Y2; move away from end
G90; back to absolute positioning
M400; make sure everything has been stopped before we reset the motor currents
M913 X100 Y100; motor currents back to normal

; homex.g

M915 X Y S3 F0 R0; configure stall detection
M574 X1 Y1 S3; set endstops to use motor stall
M913 X50 Y50; reduce motor current to 50% to prevent belts slipping
G91; use relative positioning
G1 S1 Z0 F2000; lower bed
G1 S1 X-400 F3600; course home X
G1 S1 X2; move away from end
G90; back to absolute positioning
M400; make sure everything has been stopped before we reset the motor currents
M913 X100 Y100; motor currents back to normal
M574 X1 Y1 S1; set endstops back to normal

; homeall.g

; Sensorless Homing test file
M400; make sure everything has been stopped before we make changes
M915 X Y S3 F0 R0; configure stall detection
M574 X0 Y0 S3; set endstops to use motor stall
M913 X50 Y50; reduce motor current to 50% to prevent belts slipping
G91; use relative positioning
G1 S1 X-400 Y-400 F3600; move right / back 325mm, stopping at the endstop
G1 X5 Y5; move away from home
; X or Y is homed at this point, now home the other axis
G1 X-400 F3600 S1; move towards axis minimum
G1 Y-400 F3600 S1; move towards axis minimum
G1 X1 Y1; move away from home
M400; make sure everything has been stopped before we reset the motor currents
M913 X100 Y100; motor currents back to 100%
G90; back to absolute positioning
M574 X1 Y1 S1; define active low microswitches

; Configuration file for Duet WiFi (firmware version 1.20 or newer)
; executed by the firmware on start-up
; Gideon
; generated by RepRapFirmware Configuration Tool on Tue Jan 02 2018 16:42:45 GMT + 0100 (Western Europe (standard time))

; General preferences
M111 S0; Debugging off
G21; Work in millimeters
G90; Send absolute coordinates ...
M83; ... but relative extruder moves
M555 P2; Set firmware compatibility to look like Marlin
; Automatic saving after power loss is not enabled

M669 S1; Select CoreXY mode
; S1 for CoreXY, S2 for CoreXZ, and S3 for CoreYZ
M208 X0 Y0 Z0 S1; Set axis minima S1 = minimum
M208 x390 Y390 Z590 S0; Set axis maxima S0 = maximum

; Endstops
M574 X1 Y1 S1; Set of active low end stops X1 Y1 S1
M574 Z1 S2; Set endstops controlled by probe

; Z-probe (PNP LJ12-a3-4)
M307 H3 A-1 C-1 D-1; Disable the 3th Heater to free up PWM channel 5 on the Duex board
; Connect the sensor output to one end of a resistor (call this R1), and connect one end of
; another resistor (call this R2) to GND on the Z-probe connector. Connect the free ends of R1 and R2
; together and to the IN pin of the Z-probe connector. The values ​​of R1 and R2 should be chosen so that
; about + 3V appears at their junction when triggered. If R2 is 10K, then suitable values ​​of R1 are 30K
; if the sensor is powered from + 12V
; Connect between the IN and GND terminals or the Z probe connector.

M558 P8 X0 Y0 Z1 H3 I1 F100 T10000 A1 R0.5; also try mode 8 (= unfiltered faster mode 5)?
; Z1 = Z-probe is used to home this axis; XO, YO = z-probe not used for homing
; H = defines the Z probe dive height, which
is the height above the trigger height from which probing starts.
; F = The speed of Z probing
; T = the speed at which the head travels to the Z probe coordinates are specified for bed probing
; R = defines the Z probe recovery time in seconds. The printer will pause for this time just before starting the probing move
; !!!! ABL Z-OFFSET !!!
; Volcano 08 nozzle
; G31 X30 Y0 Z1.35 P600
G31 X30 Y0 Z1.085 P600; Z probe trigger value, offset in relation to nozzle. And trigger height adjustment
; this must come after M558.
; !!! THE HIGHER the Z-offset, the deeper the nozzle goes into the bed !!!

M557 X32: 392 Y10: 360 S72: 50; Define mesh grid
; S = Probe point spacing

; Drives
M569 P0 S1; Drive 0 goes forwards
M569 P1 S1; Drive 1 goes forwards
M569 P2 S0; Drive 2 goes forwards
M569 P3 S1; Drive 3 goes forwards
M350 X16 Y16 Z16 E16 I16; Configure microstepping without interpolation E16
M92 X80 Y80 Z400 E2667; Set of steps per mm E2670
M566 X900 Y900 Z60 E50; Set maximum instantaneous speed changes "jerk" (mm / min) 40 -> 80 with 0.05 PA -> 120 with 0.04 -> 100 with 0.03 -> 400 -> 0.1 PA and 400 E80 E40
M203 X18000 Y18000 Z600 E3600; Set maximum speeds (mm / min) Z400
M201 X1000 Y1000 Z250 E140; Set of accelerations (mm / s ^ 2) X1000 Y1000 Z250 E400 E800 E1600 E140
M906 X2000 Y2000 Z1500 E1500 I30; Set motor currents (mA) and motor idle factor in per cent
M913 X100 Y100 Z100 E100; motor currents back to normal
M84 S30; Set idle timeout

; Heaters
M305 P0 T100000 B3950 C0 R4700; Set thermistor + ADC parameters for heater 0
M143 H0 S130
M307 A221.0 C312.8 D0.9 S1 V12.5; Set temperature limit for heater 0 to 120C
M305 P1 T100000 B4725 H30 L0 R4700; Set thermistor + ADC parameters for heater 1
M143 H1 S280; Set temperature limit for heater 1 to 280C
M307 H1 A335.8 C120.0 D4.4 S1 V12.6; PID settings
M303 H1 P0.85 S280
Heater 1 model: gain 335.8, time constant 120.0, dead time 4.4, max PWM 1.00, calibration voltage 11.9
Heater 1 model: gain 226.2, time constant 125.8, dead time 7.9, max PWM 0.60, calibration voltage 12.6
Heater 1 model: gain 228.2, time constant 124.0, dead time 7.5, max PWM 0.60, calibration voltage 12.6
; Heater 0 model: gain 221.0, time constant 312.8, dead time 0.9, max PWM 1.00, calibration voltage 12.5

; Tools
M563 P0 D0 H1; Define tool 0
G10 P0 X0 Y0 Z0; Set tool 0 axis offsets
G10 P0 R0 S0; Set initial tool 0 active and standby temperatures to 0C

; pressure advance
M572 D0 S0.08; 0.03 - 1 = waveguide time x 3 0.05 0.04 0.1 (1st WG)

; Network
M550 PHEVO Gideon; Set machine name
M552 P192.168.0.35; static IP
M554 P192.168.0.1; gateway
M552 P255.255.255.0; netmask
M552 S1; Enable network
; *** Access point is configured manually via M587
M586 P0 S1; Enable HTTP
M586 P1 S1; Enable FTP
M586 P2 S1; Enable Telnet

; Fans
M106 P0 S0 IO F500 H-1; Set fan 0 value, PWM signal inversion and frequency. Thermostatic control is turned off
M106 P1 S1 IO F500 H1 T60: 140; Set fan 1 value, PWM signal inversion and frequency. Thermostatic control is turned off
M106 P2 S1 IO F500 H1 T60: 140; Set fan 2 value, PWM signal inversion and frequency. Thermostatic control is turned on

; Custom settings are not configured

gavatron3000

@gideon said in Firmware 2.03beta2 available:

hello I just updated the firmware to 2.03, I had an older version more 2.00
now the next I have a corexy homex, homy, homez do not work well anymore, seems like everything goes the other way,
home all does not work anymore,
who can tell me what I am doing wrong M669 only used it because I had to think that I would miss some things again,
who can help me

; homez.g
; called to home the Z axis
;
T0; select tool
G91
M280 P3 S160 I1; relative coordinates
G1 S1 Z0 F2000, lower bed
G4 P500, wait for the bed to lower
G90: absolute positioning
G1 S1 X200 Y200 F3000, move to center
M401, deploy the probe
G30, calibrate Z-axis
M402; Retract Probe

; homey.g
M915 X Y S3 F0 R0; configure stall detection
M574 X1 Y1 S3; set endstops to use motor stall
M913 X50 Y50; reduce motor current to 50% to prevent belts slipping
G91; use relative positioning
G1 S1 Z0 F2000; lower bed
G1 S1 Y-400 F3600; course home Y
G1 S1 Y2; move away from end
G90; back to absolute positioning
M400; make sure everything has been stopped before we reset the motor currents
M913 X100 Y100; motor currents back to normal

; homex.g

M915 X Y S3 F0 R0; configure stall detection
M574 X1 Y1 S3; set endstops to use motor stall
M913 X50 Y50; reduce motor current to 50% to prevent belts slipping
G91; use relative positioning
G1 S1 Z0 F2000; lower bed
G1 S1 X-400 F3600; course home X
G1 S1 X2; move away from end
G90; back to absolute positioning
M400; make sure everything has been stopped before we reset the motor currents
M913 X100 Y100; motor currents back to normal
M574 X1 Y1 S1; set endstops back to normal

; homeall.g

; Sensorless Homing test file
M400; make sure everything has been stopped before we make changes
M915 X Y S3 F0 R0; configure stall detection
M574 X0 Y0 S3; set endstops to use motor stall
M913 X50 Y50; reduce motor current to 50% to prevent belts slipping
G91; use relative positioning
G1 S1 X-400 Y-400 F3600; move right / back 325mm, stopping at the endstop
G1 X5 Y5; move away from home
; X or Y is homed at this point, now home the other axis
G1 X-400 F3600 S1; move towards axis minimum
G1 Y-400 F3600 S1; move towards axis minimum
G1 X1 Y1; move away from home
M400; make sure everything has been stopped before we reset the motor currents
M913 X100 Y100; motor currents back to 100%
G90; back to absolute positioning
M574 X1 Y1 S1; define active low microswitches

; Configuration file for Duet WiFi (firmware version 1.20 or newer)
; executed by the firmware on start-up
; Gideon
; generated by RepRapFirmware Configuration Tool on Tue Jan 02 2018 16:42:45 GMT + 0100 (Western Europe (standard time))

; General preferences
M111 S0; Debugging off
G21; Work in millimeters
G90; Send absolute coordinates ...
M83; ... but relative extruder moves
M555 P2; Set firmware compatibility to look like Marlin
; Automatic saving after power loss is not enabled

M669 S1; Select CoreXY mode
; S1 for CoreXY, S2 for CoreXZ, and S3 for CoreYZ
M208 X0 Y0 Z0 S1; Set axis minima S1 = minimum
M208 x390 Y390 Z590 S0; Set axis maxima S0 = maximum

; Endstops
M574 X1 Y1 S1; Set of active low end stops X1 Y1 S1
M574 Z1 S2; Set endstops controlled by probe

; Z-probe (PNP LJ12-a3-4)
M307 H3 A-1 C-1 D-1; Disable the 3th Heater to free up PWM channel 5 on the Duex board
; Connect the sensor output to one end of a resistor (call this R1), and connect one end of
; another resistor (call this R2) to GND on the Z-probe connector. Connect the free ends of R1 and R2
; together and to the IN pin of the Z-probe connector. The values ​​of R1 and R2 should be chosen so that
; about + 3V appears at their junction when triggered. If R2 is 10K, then suitable values ​​of R1 are 30K
; if the sensor is powered from + 12V
; Connect between the IN and GND terminals or the Z probe connector.

M558 P8 X0 Y0 Z1 H3 I1 F100 T10000 A1 R0.5; also try mode 8 (= unfiltered faster mode 5)?
; Z1 = Z-probe is used to home this axis; XO, YO = z-probe not used for homing
; H = defines the Z probe dive height, which
is the height above the trigger height from which probing starts.
; F = The speed of Z probing
; T = the speed at which the head travels to the Z probe coordinates are specified for bed probing
; R = defines the Z probe recovery time in seconds. The printer will pause for this time just before starting the probing move
; !!!! ABL Z-OFFSET !!!
; Volcano 08 nozzle
; G31 X30 Y0 Z1.35 P600
G31 X30 Y0 Z1.085 P600; Z probe trigger value, offset in relation to nozzle. And trigger height adjustment
; this must come after M558.
; !!! THE HIGHER the Z-offset, the deeper the nozzle goes into the bed !!!

M557 X32: 392 Y10: 360 S72: 50; Define mesh grid
; S = Probe point spacing

; Drives
M569 P0 S1; Drive 0 goes forwards
M569 P1 S1; Drive 1 goes forwards
M569 P2 S0; Drive 2 goes forwards
M569 P3 S1; Drive 3 goes forwards
M350 X16 Y16 Z16 E16 I16; Configure microstepping without interpolation E16
M92 X80 Y80 Z400 E2667; Set of steps per mm E2670
M566 X900 Y900 Z60 E50; Set maximum instantaneous speed changes "jerk" (mm / min) 40 -> 80 with 0.05 PA -> 120 with 0.04 -> 100 with 0.03 -> 400 -> 0.1 PA and 400 E80 E40
M203 X18000 Y18000 Z600 E3600; Set maximum speeds (mm / min) Z400
M201 X1000 Y1000 Z250 E140; Set of accelerations (mm / s ^ 2) X1000 Y1000 Z250 E400 E800 E1600 E140
M906 X2000 Y2000 Z1500 E1500 I30; Set motor currents (mA) and motor idle factor in per cent
M913 X100 Y100 Z100 E100; motor currents back to normal
M84 S30; Set idle timeout

; Heaters
M305 P0 T100000 B3950 C0 R4700; Set thermistor + ADC parameters for heater 0
M143 H0 S130
M307 A221.0 C312.8 D0.9 S1 V12.5; Set temperature limit for heater 0 to 120C
M305 P1 T100000 B4725 H30 L0 R4700; Set thermistor + ADC parameters for heater 1
M143 H1 S280; Set temperature limit for heater 1 to 280C
M307 H1 A335.8 C120.0 D4.4 S1 V12.6; PID settings
M303 H1 P0.85 S280
Heater 1 model: gain 335.8, time constant 120.0, dead time 4.4, max PWM 1.00, calibration voltage 11.9
Heater 1 model: gain 226.2, time constant 125.8, dead time 7.9, max PWM 0.60, calibration voltage 12.6
Heater 1 model: gain 228.2, time constant 124.0, dead time 7.5, max PWM 0.60, calibration voltage 12.6
; Heater 0 model: gain 221.0, time constant 312.8, dead time 0.9, max PWM 1.00, calibration voltage 12.5

; Tools
M563 P0 D0 H1; Define tool 0
G10 P0 X0 Y0 Z0; Set tool 0 axis offsets
G10 P0 R0 S0; Set initial tool 0 active and standby temperatures to 0C

; pressure advance
M572 D0 S0.08; 0.03 - 1 = waveguide time x 3 0.05 0.04 0.1 (1st WG)

; Network
M550 PHEVO Gideon; Set machine name
M552 P192.168.0.35; static IP
M554 P192.168.0.1; gateway
M552 P255.255.255.0; netmask
M552 S1; Enable network
; *** Access point is configured manually via M587
M586 P0 S1; Enable HTTP
M586 P1 S1; Enable FTP
M586 P2 S1; Enable Telnet

; Fans
M106 P0 S0 IO F500 H-1; Set fan 0 value, PWM signal inversion and frequency. Thermostatic control is turned off
M106 P1 S1 IO F500 H1 T60: 140; Set fan 1 value, PWM signal inversion and frequency. Thermostatic control is turned off
M106 P2 S1 IO F500 H1 T60: 140; Set fan 2 value, PWM signal inversion and frequency. Thermostatic control is turned on

; Custom settings are not configured

M669 K1 instead of S1

gideon

@gavatron3000 said in Firmware 2.03beta2 available:

M669 K1 instead of S1

oke thanks

gideon

I get 1 error when I want to print

10-3-2019 15:26:18:: FIRMWARE_NAME: RepRapFirmware for Duet 2 WiFi / Ethernet FIRMWARE_VERSION: 2.03beta2 + 1 ELECTRONICS: Duet WiFi 1.02 or later FIRMWARE_DATE: 2019-02-23b1
Canceled printing file 0: /gcodes/Body1.gcode, print time was 0h 2m
Error: G0 / G1: insufficient axes homed

gavatron3000

Your homeall macro has no endstops defined

gideon

it has always worked on the firmware 2.01,
I also do not use an end stop just Sensorless Homing
or do I have to put a little bit in the firware version in 2.03 "?

gavatron3000

M574 X0 Y0 means no endstops
My sensor less setup is as follows
M574 X1 Y1 S3; X and y min endstops are sensorless

dc42

@gideon said in Firmware 2.03beta2 available:

I get 1 error when I want to print

10-3-2019 15:26:18:: FIRMWARE_NAME: RepRapFirmware for Duet 2 WiFi / Ethernet FIRMWARE_VERSION: 2.03beta2 + 1 ELECTRONICS: Duet WiFi 1.02 or later FIRMWARE_DATE: 2019-02-23b1
Canceled printing file 0: /gcodes/Body1.gcode, print time was 0h 2m
Error: G0 / G1: insufficient axes homed

This one is covered in the troubleshooting FAQ on the wiki.