First homing attempts failing.

sjason1377

The information you requested. Switches were just replaced to these, from the makerbot v1.2 to eliminate all possible failure modes. these are normally closed with no resistor. com and nc connected to outside pins of endstop connectors. individually tested. x drive 10 max endstop. m119 reports x at max when i hold switch triggered. x not stopped when I release. y at min triggered. y not stop when not triggered. Z at min triggered and z not stopped when not triggered. Machine properties console concurs with these results.

Operation speed:
Action frequency
Mechanical:
Electrical:
Insulation resistance:
Contact resistance (initial value):
Voltage withstanding
Open contacts:
Between chassis and contacts:
Ground & terminal:
Vibration (button type):
Shock (button type)
OF 0.49 N type:
OF 0.98 N type:
OF 1.96 N & 3.92 N type:
Life
Mechanical:
Electrical:
Ambient temperature:
Humidity:
Contact material:
Weight:
0.1 mm - 1 m/s (button type)
600 operations per minute
30 operations per minute
100mΩ min. (tested at 500 VDC)
15mΩ maximium
AC 1000V 50/60 Hz 1 min
AC 2000V 50/60 Hz 1 min
AC 2000V 50/60 Hz 1 min
10 - 55 Hz, 1.5mm double amplitude
Under 98 m/s²
Under 196 m/s²
Under 294 m/s²
10,000,000 operations min
100,000 operations min
-25°C to +80°C (without frost or condensation)
Under 85% (about +5 ~ 35)
AgNi alloy; AgCdO alloy (does not meet RoHS directive)
6.2 g (button type)
SPECIFICATIONS
Household applicances:
Business appliances:
Machinery:
Other:
Microwave ovens, rice cookers, washing machines, warmers, watering
troughs, humidiers, disinfecters
Automats, gaming arcades, electronics, tools, duplicators, shredders
Haulers, printers, textile machines
Auto door drive organization, equipment latch-lock mechanisms
APPLICATIONS
MICRO SWITCHES
48621 Warm Springs Blvd Fremont, CA 94539, USA
Phone:
Fax:
www.temcoindustrial.com
Specications may vary and are subject to change. For certied drawings and specications, please contact a TEMCo representative.
(510) 490-2187
(510) 490-1507
1. High precision action seat.
Action seat (OP) 14.7 +/1 0.4 mm, prev-travel (PT) max.
is 1.2 mm (button type shown below as example).
2. High shock resistance.
Action seat (OP) 14.7 +/1 0.4 mm, prev-travel (PT) max.
is 1.2 mm (button type shown below as example).
3. High heat resistance.
Max temperature: 105°C
4. Many variations to suit your application.
Current ratings range from 1A to 21 A (silver contact, Ag alloy
contacts, and silver plated gold contats available).
TERMINAL TYPE SPECIFICATIONS
Under
Terminal
Terminal
Dimensions
Horizontal
Terminal
Terminal Type
#4.8 Solder/Bolt Common Terminal
4.8 Solder Terminal
6.3 Bolt Terminal
Screw Fix Terminal
Solder Terminals
Button
Short Roller Lever
Roller Lever
Short Lever
Lever
Long Lever
Curved Lever
DRIVE TYPE SCHEMATICS
Contact type
NC
NO
COM
Change
NC
COM
Close
NO
COM
Open
15.9 mm
27.8 mm
10.3 mm
Button type
OP
PT
6. CCC Certiied, CE Marked, meets RoHS directive.
5. Strong, durable shell.
Plastic shell can bear 6 KGF.CM torque during installation.
Varied wiring congurations (see Terminal Type Specs chart below).
OF
Dierent terminal connector choices available.
Varied action pressure (OF) types.
Bolt terminal card
Electric-shock plastic safeguard socket
#4.8 Bolt
#4.8 3 Pole
MICRO SWITCHES
48621 Warm Springs Blvd Fremont, CA 94539, USA
Phone:
Fax:
www.temcoindustrial.com
Specications may vary and are subject to change. For certied drawings and specications, please contact a TEMCo representative.
(510) 490-2187
(510) 490-1507
INSTALLATION HOLE DIMENSIONS (in mm)
Button
Drive Lever
Terminal
Contact
Flat Spring
Body
STRUCTURAL DIAGRAM
10.3 +/- 0.1
22.2 +/- 0.1
2-3.1 installation hole or M3 screw hole
MICRO SWITCHES
48621 Warm Springs Blvd Fremont, CA 94539, USA
Phone:
Fax:
www.temcoindustrial.com
Specications may vary and are subject to change. For certied drawings and specications, please contact a TEMCo representative.
(510) 490-2187
(510) 490-1507

Now myconfig.g

; Configuration file for Duet Ethernet (firmware version 1.19.2)
; executed by the firmware on start-up
;
; generated by RepRapFirmware Configuration Tool on Mon Oct 23 2017 18:51:17 GMT-0400 (Eastern Standard Time)

; General preferences
M111 S0 ; Debugging off
G21 ; Work in millimetres
G90 ; Send absolute coordinates…
M83 ; ...but relative extruder moves
M555 P1 ; Set firmware compatibility to look like RepRapFirmare
M208 X0 Y0 Z0 S1 ; Set axis minima
M208 X295 Y295 Z207 S0 ; Set axis maxima

; Endstops
M574 X2 Y1 Z1 E0:1 S1 ; Define active high microswitches
M558 P5 X0 Y0 Z1 H5 F100 T2000 ; Set Z probe type to BLTOUCH, the axes for which it is used and the probe + travel speeds
G31 P50 X50 Y10 Z.7 ; Set Z probe trigger value, offset and trigger height
M557 X50:275 Y50:275 S20 ; Define mesh grid
M557 R105

; tools
M563 P0 D6:8:9 H1 F2
G10 P0 S0 R0 X0 Y0

; Drives
M569 P10 S1 R0 T2 ; Drive 10 goes forawrds
M569 P11 S0 R0 T2 ; Drive 11 goes reverse
M569 P5 S0 R0 T2 ; Drive 5 goes reverse
M569 P6 S1 R1 T2 ; Drive 6 goes forwards
M569 P8 S1 R1 T2 ; Drive 8 goes forwards
M569 P9 S1 R1 T2 ; Drive 9 goes forwards
M584 X10 Y11 Z5 E6:8:9
M350 X128 Y128 Z128 E128:128:128 I0 ; Configure microstepping without interpolation
M92 X800 Y800 Z25600 E640:640:640 ; Set steps per mm
M566 X1200 Y1200 Z18 E120:120:120 ; Set maximum instantaneous speed changes (mm/min)
M203 X19000 Y19000 Z280 E1600:1600:1600 ; Set maximum speeds (mm/min)
M201 X700 Y700 Z430 E350:350:350 ; Set accelerations (mm/s^2)
M906 X0 Y0 Z0 E0:0:0 ; Set motor currents (mA)
M84 S0 ; Disable motor idle current reduction

; Heaters
M143 S260 ; Set maximum heater temperature to 260C
M305 P0 T100000 B4138 C0 R4700 ; Set thermistor + ADC parameters for heater 0
M305 P1 T100000 B4138 C0 R4700 ; Set thermistor + ADC parameters for heater 1
M307 H7 A1 C1 D1
; Tools
M563 P0 D0:1:2 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

; Network
M550 Pkathryn printer ; Set machine name
M540 PBE:EF:DE:AD:FE:ED ; Set MAC address
M552 P192.168.2.9 S1 ; Enable network static address
M586 P0 S1 ; Enable HTTP
M586 P1 S0 ; Disable FTP
M586 P2 S0 ; Disable Telnet

; Fans
M106 P0 S1 I0 F255 H-1 ; Set fan 0 value, PWM signal inversion and frequency. Thermostatic control is turned off
M106 P1 S1 I0 F255 H1 T45 ; Set fan 1 value, PWM signal inversion and frequency. Thermostatic control is turned on
M106 P2 S1 I F255 H1 T45 ; Set fan 2 value, PWM signal inversion and frequency. Thermostatic control is turned on

; Custom settings are not configured

; Miscellaneous
M501 ; Load saved parameters from non-volatile memory

; homeall.g
; called to home all axes
;
; generated by RepRapFirmware Configuration Tool on Mon Oct 23 2017 18:51:17 GMT-0400

; Relative positioning
G91

; Lift Z
G1 Z5 F1500

; Course home X and Y
G1 X290 Y-290 F750 S1

; Move away from the endstops
G1 X-10 Y-10 F1000

; Fine home X and Y
G1 X290 Y-290 F250 S1

; Absolute positioning
G90

; Go to first bed probe point and home Z
G1 X50 Y50 F1500
G30

; Uncomment the following line to lift the nozzle after probing
G1 Z5 F100

homex.g
; homex.g
; called to home the X axis
;
; generated by RepRapFirmware Configuration Tool on Mon Oct 23 2017 18:51:17 GMT-0400 (Eastern Standard Time)

G91
G1 Z5 F1500
G90

G1 X290 F750 S1

G91
G1 X-5 F1000
G90

G1 X290 F250 S1

G91
G1 Z-5 F1000
G90

Homey.g

; homey.g
; called to home the Y axis
;
; generated by RepRapFirmware Configuration Tool on Mon Oct 23 2017 18:51:17 GMT-0400 (Eastern Standard Time)

; Lift Z relative to current position
G91
G1 Z5 F3000
G90

; Move quickly to Y axis endstop and stop there (first pass)
G1 Y-290 F1000 S1

; Go back a few mm
G91
G1 Y5 F1000
G90

; Move slowly to y axis endstop once more (second pass)
G1 Y-290 F250 S1

; Lower Z again
G91
G1 Z-5 F1000
G90

Homez.g

; homez.g
; called to home the Z axis
;
; generated by RepRapFirmware Configuration Tool on Mon Oct 23 2017 18:51:17 GMT-0400 (Eastern Standard Time)

; bed.g
; called to perform automatic bed compensation via G32
;
; generated by RepRapFirmware Configuration Tool on Mon Oct 23 2017 18:51:17 GMT-0400 (Eastern Standard Time)

; Clear any bed transform
;M561

M401 ;deployprobe
G29 S0 ;probebedmesh
M402 ;retractprobe
M374 ;save map to file.

deployprobe.g
M280 P7 S10

M280 P7 S90

dc42

Suggestions:

1. You are using external drivers for X and Y, but you have M350 X128 Y128. You should set X and Y to 16 in that M350 command, even if you are actually using higher microstepping on your external drivers. I'm not sure that using X128 Y128 in M350 will cause a problem, but it might. Leave your M92 steps/mm at 800 if that is correct for the microstep setting on your drivers.

2. What types of external drivers are you using for X and Y? You may need to extend the pulse width to more than 2us. Try T4 in your M569 P10 and M569 P11 commands until everything is working.

3. I suggest you test basic motion first. Send G91 to put the printer into relative coordinate mode. Then send these commands and check that the movement is as expected:

G1 S2 X50 F3000 ; should move the head 50mm in the +X direction
G1 S2 X-50 F3000 ; should move the head 50mm in the -X direction
G1 S2 Y50 F3000 ; should move the head 50mm in the +Y direction
G1 S2 Y-50 F3000 ; should move the head 50mm in the -Y direction

HTH David

sjason1377

As I stated before, I am requesting answers in the most efficient manner to correct my issues. This benefits both of us. I have 2 years backround in cnc millturn 5 axis setup and control. I already calibrated the machine, once movement happened, by placing it on my mill and following the mills with a feed sensitive probe in spindle. The board produces exact move as advertised. The issue with 128 micro in M350 command much be that way. Otherwise I get 1/8 the travel distance. I know my setup well. this is the 3rd printer board I've tried. Smoothieboard lacked the drive flexibility. Arduino, well you no there limits. I like the Gcode on the fly. Printer worked with 3 other boards. The drivers are kl 5056d they come with software and serial port comm to pc for tuning and calibration. Nothing on my side is causing any of this action. My question is this. Regardless if i am right or wrong, asking someone to look at the files and confirm or direct me is actually a separate request than Diagnosing the total build. I just want to know that my config.g and homing files are in correct. I can play tag for weeks over hardware and calibration, but if it's in the files causing the issue, how many times am I going to check what I know already works. Please understand I total get the switches electrically, mechanically and the moves are spot on. It stops sometimes. Homes 1 axis correct, than doesn't other times. but never all 3 completely as a homeall.g or 1 after the next. I'm not even going to test probing until it's reliable first. To answer the request, I get 6.24903 reading from uccnc off the mill, and 6.25 on duet. again sensor to sensor spindle to nozzle test.

If I could just receive conformation that I have properly configured those homing files and that config.g is in order as it relates to homing of axis plains I would be very grateful. If I need to correct them I will receive any advice with much thanks!

deckingman

@sjason1377:

…....................................
If I could just receive conformation that I have properly configured those homing files..........................

No, you haven't. There is an inconsistency between the homing of Y in homeall.g and the homey.g file (clue - the homeall.g looks wrong). Also, if it were me, I'd home Z at the centre of the bed rather than 50mm from a corner but you seem to have far more experience than me so I'll not argue.

sjason1377

Ok I tested machine with on board drivers and it homed. This board doesn't work with x y z on external drivers like advertised

dc42

The Duet does work with external drivers for XYZ. However, the drive voltage available on the CONN_LCD connector is 3.3V, and your external drivers may require 5V.

sjason1377

what does that have to do with machine not stopping for the endstop switches? this post is about homing not drivers. It want home and you still haven't commented on the files I up loaded. I hit the home x button and slam. Hit home y and slam. S1 is is write in the file. I see the led go out everytime for the axes homing, but slam and stripping the belt. Please just tell me why that is?

T3P3Tony

; Course home X and Y
G1 X290 Y-290 F750 S1

; Move away from the endstops
G1 X-10 Y-10 F1000

; Fine home X and Y
G1 X290 Y-290 F250 S1

This is wrong if your Y endstop is a minimum one then you are moving negative 290, then trying to move negative 10 it should be +10. As deckingman pointed out this is different in homeall.g from homey.g so you will get a different result depending on how you call homing.

Also you have a very different homeZ from homeall.g I would get the individual axes working homing by them selves, then copy those elements into the homeall.g

dc42

@sjason1377:

what does that have to do with machine not stopping for the endstop switches? this post is about homing not drivers. It want home and you still haven't commented on the files I up loaded. I hit the home x button and slam. Hit home y and slam. S1 is is write in the file. I see the led go out everytime for the axes homing, but slam and stripping the belt. Please just tell me why that is?

I have already commented on your files: i pointed out that using M350 to set microstepping on external drivers might be problematic. Ian and Tony have pointed out issues with your homing files.

Another issue I can see with your config.g file is that the maximum speed you have configured in the M203 command is much too high to be achievable, especially in view of your high steps/mm. But that shouldn't affect homing because the commanded speeds are much lower.

Please provide a link to the datasheet for the external drivers you are using, and tell us how you have connected them to the Duet.

sjason1377

wont home x not even attempting to move. instant error on screen with on board drivers. Lets forget external drivers, there are all off. Just the board and steppers now. I can jog and thats it. Used configurator to produce new homing files and tried to home. instant failure message. now m122 reports stand still stalled on x and z. this is as standard of a setup as it get. this board just doesn't work.

sjason1377

no external drivers. now its just duet! Failure to home still persist. IF type G1 S2 X100 F3000 machine says busy then nothing. Then 30 sec. later the distance reflects a move that didn't happen. Another 30 seconds and then it takes off and slams an endstop. Not even the axis I commanded. last time i tried, z went up then stopped and x went then stopped. the distance didn't change that time. that was a single linear request. This things just no good. Gonna need the warranty honored here.

sjason1377

You wanna know why real cnc companys don't have forum and support groups? Because they don't have 1000s of confused unhappy costumers. If there is an issue the fix it. But it's rare they fail. Look for a Haas machine forum, or a Hurco support group. They don't exist. Because they don't need em. want my money back

lignumaqua

I think the many users of the Duet who have had complete success, are very happy with their purchase, and who enjoy the assistance given on this forum would disagree with you.

It seems clear from your posts that English is not your first language, so you may have misunderstood some of the Wiki instructions. For the same reason you may also not realize how rude your posts appear to an English speaker. David, Tony, and the other frequent posters here are the most helpful I’ve found on just about any forum. If you would work with them rather than arguing I’m sure you would get things worked out.

dc42

@sjason1377:

wont home x not even attempting to move. instant error on screen with on board drivers. Lets forget external drivers, there are all off. Just the board and steppers now. I can jog and thats it. Used configurator to produce new homing files and tried to home. instant failure message. now m122 reports stand still stalled on x and z. this is as standard of a setup as it get. this board just doesn't work.

What was the failure message: "Homing failed", or something else?

The motor stall indication is not reliable at low speeds, so the "stalled" indication doesn't matter.

Please share the new config.g and homing files that you are now using.

sjason1377

theres nothing but m105 info now. no esponce from the board at all. not usb or ethernet. sd card is good board is not. Like I said its defective hardware. Filastruder is putting the warranty claim issue on U. They except returns for 30 days. They are not going to honor a return due to warranty. The failures reacted every level of function the board has. There is now way Someone could install these thing T cause every function to behave wrong and than stop responding.

sjason1377

Ok I got it to move again. Had to reset, erase and reload firmware. Now I'm at a fresh start with all online config tool files. Machine jogs all 3 axis turns, axt power on/off heat on off, but when I try to home a single axis it moves 20mm or so the direction the file says, then back a few stops and reports error g28 yhoming failed. It does this on x,y,z. It's as if it's looking to come off a switch to reset it like my mill will do if the switch is hung up. But the switches checkout. I tried every position active high/ low both ends and a combination of them all. same problem. My homing files request -300 of travel to the switch, but it stops around 10 to 20mm every time. it's just not going far enough. When it does it won't stop "half" the time. I am using all on-board equipment at this point. The switches are just plain n/c contact with rolled lever. "raw switches" wired to the gnd and signal for the endstop connectors. Nothing one the 3.3v supply pin. M122 calls report good data for these switches and I see leds on according to the instructions for when not stopped using n/c and off when stopped. here is the homing file for "Y" I will send just 1 because I want to master 1 at a time.
; homey.g
; called to home the Y axis
;
; generated by RepRapFirmware Configuration Tool on Sat Nov 25 2017 12:15:39 GMT-0500 (Eastern Standard Time)

; Lift Z relative to current position
G91
G1 Z5 F6000
G90

; Move quickly to Y axis endstop and stop there (first pass)
G1 Y-300 F1800 S1

; Go back a few mm
G91
G1 Y5 F6000
G90

; Move slowly to X axis endstop once more (second pass)
G1 Y-300 F360 S1

; Lower Z again
G91
G1 Z-5 F6000
G90

dc42

I'm sorry to hear that you are still having problems getting homing to work.

You homing files look OK and your earlier config file looked OK too apart from the issues that I and other mentioned. So I am wondering whether your endstop wires are picking up inductive interference from the stepper motor cables, giving rise to false triggering. This is not common because the endstop circuitry on the Duet includes filtering circuitry, but it can still happen if the stepper motor wires and endstop wires run close to each other for a substantial distance, and you are not using twisted pair wiring for either the endstop wires or the stepper motor wires. Is your wiring like this?

If so, then to test whether this is the cause, I suggest that you make up a new temporary cable for one of the endstop switches, keeping it completely separate from the motor cable, and use it in place of the existing cable. Or, temporarily connect a spare microswitch or push button to the endstop switch connector instead of the cable to the endstop switch, and see if you can stop the homing move by pressing that switch.

If that fixes it, then you can still have the endstop switch wires running alongside the stepper motor cables if that is what you need to do, but you should use twisted pair for the endstop switch wires. Twisted pair is resistant to inductive interference pickup.

Also, please confirm that you have two wires running from each endstop switch direct to the outer two pins of the corresponding endstop connector, and you are not using a common ground wire or anything like that.

HTH David

sjason1377

This is what I used. 1 pair endstops. 3 pair version for stepper drives, when I had them external. 5 pair for a 4 channel relay optccoupler interfaced no longer connected. I assume any triggering of the switch sense curcuit would at least be seen or recorded, would it not? I think the larger issue is it doesn't move. I mean it very slowly lurches toward the switch, hesitates then back up a bit, stops and post an error. It's actually moving and behaving like it's scared to perform. I know it sound crazy, but something before it even tries to move isn't right. It's starting the g28 command on the wrong foot somehow. It also does it from Repitier host over usb, which I only connect to test and remove.

18AWG Instrumentation Cable - Overall Shield
Part Number
Number
of Pairs
AWG
18AWG Instrumentation Cable - Overall Shield Specifications
Conductor Gauge & Stranding
18AWG Class B 7 stranded bare copper per
ASTM B-3 and B-8
Print Legend*
CCI ROYAL 18 AWG XX SHIELDED PAIRS PVC/PVC TYPE
PLTC/ITC E176494 (UL) 105C SUN RES FT4/IEEE 1202
–- SEQUENTIAL MARKING
Voltage Rating
300V
Flame Rating
Passes FT4/EEE 1202 Flame Test
Passes IEEE 383 Flame Test (70,000btu)
Jacket Material
Sunlight resistant black PVC (polyvinyl
chloride)
Applicable Standards
UL Standard 13 Type PLTC
UL Standard 2250 Type ITC
EPA 40 CFR, Part 26, Subpart C, heavy metals per Table 1,
TCLP method
NEC Article 725 (Type PLTC)
NEC Article 727 (Type ITC)
Hazardous Locations:

NEC Article 504 (Intrinsically Safe Systems)

Conductor Insulation
PVC
Pair Lay Length
1.25 twists per inch
Resistance
6.60
Ω
/1000’ @ 20°C per conductor
Conductor Markings
Black / White; Alpha-numeric print;
alternate & inverted @ 2.5 inch intervals
Temperature Rating
-30°C to 105°C (-22°F to 221°F)
Shield and Drain Wire
Overall aluminum polyester foil shield with
a tinned copper drain wire
Communication Wire**
22AWG PVC (orange)
Min. Bend Radius
10x diameter
18AWG Instrumentation Cable -
Overall Shield

sjason1377

Endstop connections. Raw switch side N/C to pin 1 to J33 connector = x
to J32 connector = y
to J19 connector = z
Raw switch side com. to pin 3 to J33 connector =x
to J32 connector =y
to J19 connector =z

sjason1377

I got it to home x and y partially, if before travels are the same direction. This means I have to move x homing switch, which I will. It won't complete the axis that doesn't hit it's switch first. So if x makes it to it's switch first y stops too. I separated the x and y lines to 2 separate g1 lines hoping if it performs 1 than the other. That failed to happen too. But now it's back to ignoring the switches altogether. The switches are still good. I know if it was stopping at the switches before, it's not them. motors are freed up and I get no other errors other than Homing failed G28 X or Y or Both. It's of an unstable non consistent nature. The way it refuses to complete the gcode isn't the same each time. The conditions aren't changing during a period of testing but the results are. There is nothing of the electromagnetic nature other than the 24 volt server pwr supply that the pc and board share. It's regulated for 3.3, 5, 12, 24 volt with 1 common ground from 120vac mains. 1 10ga copper ground to earth. All cables are shielded except power. I have to think there most be a fault in the ic path causing it to act this way. The last test I tried home x and y and it start heading 100mm y+ the wrong way. How is that possible if the file didn't change for it to actually make a directional mistake?