7i96 non S PWM on an output possible?
19 Jul 2024 21:48 - 19 Jul 2024 23:01 #305673
by PCW
Replied by PCW on topic 7i96 non S PWM on an output possible?
Not sure about the upper case but basically
the first statement uses ini file macro substitutions
for the card name and number while the second
uses the name (7i96s) and number (0) directly.
Both are equivalent after the hal file is processed
at startup.
I often use the macro substitutions as it means the hal files
are portable between card types (only need to change the card name
once in the ini file to change the card).
To use the macro substitution shown, your ini file would need something like this:
[HMOT]
CARD0=hm2_7i96s.0
the first statement uses ini file macro substitutions
for the card name and number while the second
uses the name (7i96s) and number (0) directly.
Both are equivalent after the hal file is processed
at startup.
I often use the macro substitutions as it means the hal files
are portable between card types (only need to change the card name
once in the ini file to change the card).
To use the macro substitution shown, your ini file would need something like this:
[HMOT]
CARD0=hm2_7i96s.0
Last edit: 19 Jul 2024 23:01 by PCW.
The following user(s) said Thank You: my1987toyota
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23 Jul 2024 14:40 #305904
by my1987toyota
Replied by my1987toyota on topic 7i96 non S PWM on an output possible?
well after a few days messing with the ssr and the hot wire I have discovered that the relay definitely doesn't like fast
switching speeds . Even if the wire itself doesn't care I can't seem to get enough linearity from the ssr. just running it
on a stand alone pwm controller. Fortunately I can find high amp mosfet 3D printer bed heater boards that can handle
it. I am still working on getting the linuxcnc HAL to work the way I want. Oh well if it was easy every body would be
doing it.
switching speeds . Even if the wire itself doesn't care I can't seem to get enough linearity from the ssr. just running it
on a stand alone pwm controller. Fortunately I can find high amp mosfet 3D printer bed heater boards that can handle
it. I am still working on getting the linuxcnc HAL to work the way I want. Oh well if it was easy every body would be
doing it.
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23 Jul 2024 14:57 #305905
by PCW
Replied by PCW on topic 7i96 non S PWM on an output possible?
I would think that power (which is proportional to PWM duty cycle)
vs temperature would be quite non-linear by nature. The "lincurve"
component might be useful to linearize the PWM settings.
vs temperature would be quite non-linear by nature. The "lincurve"
component might be useful to linearize the PWM settings.
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23 Jul 2024 18:08 #305913
by my1987toyota
Replied by my1987toyota on topic 7i96 non S PWM on an output possible?
I will check into that . Thanks
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28 Jul 2024 19:44 #306273
by my1987toyota
Replied by my1987toyota on topic 7i96 non S PWM on an output possible?
Hey PCW I have a working solution. I will be posting it soon (I am still experimenting with it)
Thank you for the help and recommendations. I also found an example to work with in the manual.
Plus I also integrated in a PYVCP panel for Wire Power and an indicator for if the wire is on.
Thank you for the help and recommendations. I also found an example to work with in the manual.
Plus I also integrated in a PYVCP panel for Wire Power and an indicator for if the wire is on.
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28 Jul 2024 22:11 - 29 Jul 2024 10:13 #306285
by my1987toyota
Replied by my1987toyota on topic 7i96 non S PWM on an output possible?
ok below are my current HAL, INI, and PYVCP files for the foam cutter.
the HAL file
[/code][/code][/code]
the HAL file
# Generated by PNCconf at Wed Jul 17 17:05:42 2024
# Using LinuxCNC version: Master (2.9)
# If you make changes to this file, they will be
# overwritten when you run PNCconf again
loadrt [KINS]KINEMATICS
loadrt [EMCMOT]EMCMOT servo_period_nsec=[EMCMOT]SERVO_PERIOD num_joints=[KINS]JOINTS
loadrt hostmot2
loadrt hm2_eth board_ip="10.10.10.10" config="num_encoders=1 num_pwmgens=0 num_stepgens=5 sserial_port_0=0xxxxxxx"
loadrt pid names=pid.x,pid.y,pid.u,pid.v,pid.a,pid.s
loadrt pwmgen output_type=0
addf [HMOT](CARD0).read servo-thread
addf motion-command-handler servo-thread
addf motion-controller servo-thread
addf pid.x.do-pid-calcs servo-thread
addf pid.y.do-pid-calcs servo-thread
addf pid.u.do-pid-calcs servo-thread
addf pid.v.do-pid-calcs servo-thread
addf pid.a.do-pid-calcs servo-thread
addf pid.s.do-pid-calcs servo-thread
addf [HMOT](CARD0).write servo-thread
addf pwmgen.update servo-thread
addf pwmgen.make-pulses servo-thread
setp [HMOT](CARD0).dpll.01.timer-us -50
setp [HMOT](CARD0).stepgen.timer-number 1
setp [HMOT](CARD0).watchdog.timeout_ns 5000000
setp pwmgen.0.dither-pwm true
setp pwmgen.0.pwm-freq 20
setp pwmgen.0.scale 100 # Change to your spindle’s top speed in RPM
# external output signals
# --- WIRE-OUTPUT-PIN ---
net spindle-speed-cmd spindle.0.speed-out => pwmgen.0.value
net spindle-on spindle.0.on => pwmgen.0.enable
net spindle-pwm pwmgen.0.pwm => [HMOT](CARD0).ssr.00.out-05
# external input signals
# --- ESTOP-EXT ---
net estop-ext <= [HMOT](CARD0).gpio.000.in_not
# --- HOME-X ---
net home-x <= [HMOT](CARD0).gpio.001.in
# --- HOME-Y ---
net home-y <= [HMOT](CARD0).gpio.002.in
# --- HOME-U ---
net home-U <= [HMOT](CARD0).gpio.003.in
# --- HOME-V ---
net home-V <= [HMOT](CARD0).gpio.004.in
# --- HOME-A ---
#net home-A <= [HMOT](CARD0).gpio.005.in
#*******************
# AXIS X JOINT 0
#*******************
setp pid.x.Pgain [JOINT_0]P
setp pid.x.Igain [JOINT_0]I
setp pid.x.Dgain [JOINT_0]D
setp pid.x.bias [JOINT_0]BIAS
setp pid.x.FF0 [JOINT_0]FF0
setp pid.x.FF1 [JOINT_0]FF1
setp pid.x.FF2 [JOINT_0]FF2
setp pid.x.deadband [JOINT_0]DEADBAND
setp pid.x.maxoutput [JOINT_0]MAX_OUTPUT
setp pid.x.error-previous-target true
# This setting is to limit bogus stepgen
# velocity corrections caused by position
# feedback sample time jitter.
setp pid.x.maxerror 0.012700
net x-index-enable => pid.x.index-enable
net x-enable => pid.x.enable
net x-pos-cmd => pid.x.command
net x-pos-fb => pid.x.feedback
net x-output <= pid.x.output
# Step Gen signals/setup
setp [HMOT](CARD0).stepgen.00.dirsetup [JOINT_0]DIRSETUP
setp [HMOT](CARD0).stepgen.00.dirhold [JOINT_0]DIRHOLD
setp [HMOT](CARD0).stepgen.00.steplen [JOINT_0]STEPLEN
setp [HMOT](CARD0).stepgen.00.stepspace [JOINT_0]STEPSPACE
setp [HMOT](CARD0).stepgen.00.position-scale [JOINT_0]STEP_SCALE
setp [HMOT](CARD0).stepgen.00.step_type 0
setp [HMOT](CARD0).stepgen.00.control-type 1
setp [HMOT](CARD0).stepgen.00.maxaccel [JOINT_0]STEPGEN_MAXACCEL
setp [HMOT](CARD0).stepgen.00.maxvel [JOINT_0]STEPGEN_MAXVEL
# ---closedloop stepper signals---
net x-pos-cmd <= joint.0.motor-pos-cmd
net x-vel-cmd <= joint.0.vel-cmd
net x-output => [HMOT](CARD0).stepgen.00.velocity-cmd
net x-pos-fb <= [HMOT](CARD0).stepgen.00.position-fb
net x-pos-fb => joint.0.motor-pos-fb
net x-enable <= joint.0.amp-enable-out
net x-enable => [HMOT](CARD0).stepgen.00.enable
# ---setup home / limit switch signals---
#net x-home-sw => joint.0.home-sw-in
net x-home => joint.0.home-sw-in
net x-neg-limit => joint.0.neg-lim-sw-in
net x-pos-limit => joint.0.pos-lim-sw-in
#*******************
# AXIS Y JOINT 1
#*******************
setp pid.y.Pgain [JOINT_1]P
setp pid.y.Igain [JOINT_1]I
setp pid.y.Dgain [JOINT_1]D
setp pid.y.bias [JOINT_1]BIAS
setp pid.y.FF0 [JOINT_1]FF0
setp pid.y.FF1 [JOINT_1]FF1
setp pid.y.FF2 [JOINT_1]FF2
setp pid.y.deadband [JOINT_1]DEADBAND
setp pid.y.maxoutput [JOINT_1]MAX_OUTPUT
setp pid.y.error-previous-target true
# This setting is to limit bogus stepgen
# velocity corrections caused by position
# feedback sample time jitter.
setp pid.y.maxerror 0.012700
net y-index-enable => pid.y.index-enable
net y-enable => pid.y.enable
net y-pos-cmd => pid.y.command
net y-pos-fb => pid.y.feedback
net y-output <= pid.y.output
# Step Gen signals/setup
setp [HMOT](CARD0).stepgen.01.dirsetup [JOINT_1]DIRSETUP
setp [HMOT](CARD0).stepgen.01.dirhold [JOINT_1]DIRHOLD
setp [HMOT](CARD0).stepgen.01.steplen [JOINT_1]STEPLEN
setp [HMOT](CARD0).stepgen.01.stepspace [JOINT_1]STEPSPACE
setp [HMOT](CARD0).stepgen.01.position-scale [JOINT_1]STEP_SCALE
setp [HMOT](CARD0).stepgen.01.step_type 0
setp [HMOT](CARD0).stepgen.01.control-type 1
setp [HMOT](CARD0).stepgen.01.maxaccel [JOINT_1]STEPGEN_MAXACCEL
setp [HMOT](CARD0).stepgen.01.maxvel [JOINT_1]STEPGEN_MAXVEL
# ---closedloop stepper signals---
net y-pos-cmd <= joint.1.motor-pos-cmd
net y-vel-cmd <= joint.1.vel-cmd
net y-output => [HMOT](CARD0).stepgen.01.velocity-cmd
net y-pos-fb <= [HMOT](CARD0).stepgen.01.position-fb
net y-pos-fb => joint.1.motor-pos-fb
net y-enable <= joint.1.amp-enable-out
net y-enable => [HMOT](CARD0).stepgen.01.enable
# ---setup home / limit switch signals---
#net y-home-sw => joint.1.home-sw-in
net home-y => joint.1.home-sw-in
net y-neg-limit => joint.1.neg-lim-sw-in
net y-pos-limit => joint.1.pos-lim-sw-in
#*******************
# AXIS U JOINT 2
#*******************
setp pid.u.Pgain [JOINT_2]P
setp pid.u.Igain [JOINT_2]I
setp pid.u.Dgain [JOINT_2]D
setp pid.u.bias [JOINT_2]BIAS
setp pid.u.FF0 [JOINT_2]FF0
setp pid.u.FF1 [JOINT_2]FF1
setp pid.u.FF2 [JOINT_2]FF2
setp pid.u.deadband [JOINT_2]DEADBAND
setp pid.u.maxoutput [JOINT_2]MAX_OUTPUT
setp pid.u.error-previous-target true
# This setting is to limit bogus stepgen
# velocity corrections caused by position
# feedback sample time jitter.
setp pid.u.maxerror 0.012700
net u-index-enable => pid.u.index-enable
net u-enable => pid.u.enable
net u-pos-cmd => pid.u.command
net u-pos-fb => pid.u.feedback
net u-output <= pid.u.output
# Step Gen signals/setup
setp [HMOT](CARD0).stepgen.02.dirsetup [JOINT_2]DIRSETUP
setp [HMOT](CARD0).stepgen.02.dirhold [JOINT_2]DIRHOLD
setp [HMOT](CARD0).stepgen.02.steplen [JOINT_2]STEPLEN
setp [HMOT](CARD0).stepgen.02.stepspace [JOINT_2]STEPSPACE
setp [HMOT](CARD0).stepgen.02.position-scale [JOINT_2]STEP_SCALE
setp [HMOT](CARD0).stepgen.02.step_type 0
setp [HMOT](CARD0).stepgen.02.control-type 1
setp [HMOT](CARD0).stepgen.02.maxaccel [JOINT_2]STEPGEN_MAXACCEL
setp [HMOT](CARD0).stepgen.02.maxvel [JOINT_2]STEPGEN_MAXVEL
# ---closedloop stepper signals---
net u-pos-cmd <= joint.2.motor-pos-cmd
net u-vel-cmd <= joint.2.vel-cmd
net u-output => [HMOT](CARD0).stepgen.02.velocity-cmd
net u-pos-fb <= [HMOT](CARD0).stepgen.02.position-fb
net u-pos-fb => joint.2.motor-pos-fb
net u-enable <= joint.2.amp-enable-out
net u-enable => [HMOT](CARD0).stepgen.02.enable
# ---setup home / limit switch signals---
#net u-home-sw => joint.2.home-sw-in
net home-u => joint.2.home-sw-in
net u-neg-limit => joint.2.neg-lim-sw-in
net u-pos-limit => joint.2.pos-lim-sw-in
#*******************
# AXIS V JOINT 3
#*******************
setp pid.v.Pgain [JOINT_3]P
setp pid.v.Igain [JOINT_3]I
setp pid.v.Dgain [JOINT_3]D
setp pid.v.bias [JOINT_3]BIAS
setp pid.v.FF0 [JOINT_3]FF0
setp pid.v.FF1 [JOINT_3]FF1
setp pid.v.FF2 [JOINT_3]FF2
setp pid.v.deadband [JOINT_3]DEADBAND
setp pid.v.maxoutput [JOINT_3]MAX_OUTPUT
setp pid.v.error-previous-target true
# This setting is to limit bogus stepgen
# velocity corrections caused by position
# feedback sample time jitter.
setp pid.v.maxerror 0.012700
net v-index-enable => pid.v.index-enable
net v-enable => pid.v.enable
net v-pos-cmd => pid.v.command
net v-pos-fb => pid.v.feedback
net v-output <= pid.v.output
# Step Gen signals/setup
setp [HMOT](CARD0).stepgen.03.dirsetup [JOINT_3]DIRSETUP
setp [HMOT](CARD0).stepgen.03.dirhold [JOINT_3]DIRHOLD
setp [HMOT](CARD0).stepgen.03.steplen [JOINT_3]STEPLEN
setp [HMOT](CARD0).stepgen.03.stepspace [JOINT_3]STEPSPACE
setp [HMOT](CARD0).stepgen.03.position-scale [JOINT_3]STEP_SCALE
setp [HMOT](CARD0).stepgen.03.step_type 0
setp [HMOT](CARD0).stepgen.03.control-type 1
setp [HMOT](CARD0).stepgen.03.maxaccel [JOINT_3]STEPGEN_MAXACCEL
setp [HMOT](CARD0).stepgen.03.maxvel [JOINT_3]STEPGEN_MAXVEL
# ---closedloop stepper signals---
net v-pos-cmd <= joint.3.motor-pos-cmd
net v-vel-cmd <= joint.3.vel-cmd
net v-output => [HMOT](CARD0).stepgen.03.velocity-cmd
net v-pos-fb <= [HMOT](CARD0).stepgen.03.position-fb
net v-pos-fb => joint.3.motor-pos-fb
net v-enable <= joint.3.amp-enable-out
net v-enable => [HMOT](CARD0).stepgen.03.enable
# ---setup home / limit switch signals---
#net v-home-sw => joint.3.home-sw-in
net home-v => joint.3.home-sw-in
net v-neg-limit => joint.3.neg-lim-sw-in
net v-pos-limit => joint.3.pos-lim-sw-in
#*******************
# AXIS A JOINT 4
#*******************
setp pid.a.Pgain [JOINT_4]P
setp pid.a.Igain [JOINT_4]I
setp pid.a.Dgain [JOINT_4]D
setp pid.a.bias [JOINT_4]BIAS
setp pid.a.FF0 [JOINT_4]FF0
setp pid.a.FF1 [JOINT_4]FF1
setp pid.a.FF2 [JOINT_4]FF2
setp pid.a.deadband [JOINT_4]DEADBAND
setp pid.a.maxoutput [JOINT_4]MAX_OUTPUT
setp pid.a.error-previous-target true
# This setting is to limit bogus stepgen
# velocity corrections caused by position
# feedback sample time jitter.
setp pid.a.maxerror 0.012700
net a-index-enable => pid.a.index-enable
net a-enable => pid.a.enable
net a-pos-cmd => pid.a.command
net a-pos-fb => pid.a.feedback
net a-output <= pid.a.output
# Step Gen signals/setup
setp [HMOT](CARD0).stepgen.04.dirsetup [JOINT_4]DIRSETUP
setp [HMOT](CARD0).stepgen.04.dirhold [JOINT_4]DIRHOLD
setp [HMOT](CARD0).stepgen.04.steplen [JOINT_4]STEPLEN
setp [HMOT](CARD0).stepgen.04.stepspace [JOINT_4]STEPSPACE
setp [HMOT](CARD0).stepgen.04.position-scale [JOINT_4]STEP_SCALE
setp [HMOT](CARD0).stepgen.04.step_type 0
setp [HMOT](CARD0).stepgen.04.control-type 1
setp [HMOT](CARD0).stepgen.04.maxaccel [JOINT_4]STEPGEN_MAXACCEL
setp [HMOT](CARD0).stepgen.04.maxvel [JOINT_4]STEPGEN_MAXVEL
# ---closedloop stepper signals---
net a-pos-cmd <= joint.4.motor-pos-cmd
net a-vel-cmd <= joint.4.vel-cmd
net a-output => [HMOT](CARD0).stepgen.04.velocity-cmd
net a-pos-fb <= [HMOT](CARD0).stepgen.04.position-fb
net a-pos-fb => joint.4.motor-pos-fb
net a-enable <= joint.4.amp-enable-out
net a-enable => [HMOT](CARD0).stepgen.04.enable
# ---setup home / limit switch signals---
net a-home-sw => joint.4.home-sw-in
#net home-a => joint.4.home-sw-in
net a-neg-limit => joint.4.neg-lim-sw-in
net a-pos-limit => joint.4.pos-lim-sw-in
#*******************
# SPINDLE
#*******************
setp pid.s.Pgain [SPINDLE_0]P
setp pid.s.Igain [SPINDLE_0]I
setp pid.s.Dgain [SPINDLE_0]D
setp pid.s.bias [SPINDLE_0]BIAS
setp pid.s.FF0 [SPINDLE_0]FF0
setp pid.s.FF1 [SPINDLE_0]FF1
setp pid.s.FF2 [SPINDLE_0]FF2
setp pid.s.deadband [SPINDLE_0]DEADBAND
setp pid.s.maxoutput [SPINDLE_0]MAX_OUTPUT
setp pid.s.error-previous-target true
net spindle-index-enable => pid.s.index-enable
net spindle-enable => pid.s.enable
net spindle-vel-cmd-rpm => pid.s.command
net spindle-vel-fb-rpm => pid.s.feedback
net spindle-output <= pid.s.output
# ---setup spindle control signals---
net spindle-vel-cmd-rps <= spindle.0.speed-out-rps
net spindle-vel-cmd-rps-abs <= spindle.0.speed-out-rps-abs
#net spindle-vel-cmd-rpm <= spindle.0.speed-out
net spindle-vel-cmd-rpm-abs <= spindle.0.speed-out-abs
#net spindle-enable <= spindle.0.on
net spindle-cw <= spindle.0.forward
net spindle-ccw <= spindle.0.reverse
net spindle-brake <= spindle.0.brake
net spindle-revs => spindle.0.revs
net spindle-at-speed => spindle.0.at-speed
net spindle-vel-fb-rps => spindle.0.speed-in
net spindle-index-enable <=> spindle.0.index-enable
# ---Setup spindle at speed signals---
sets spindle-at-speed true
#******************************
# connect miscellaneous signals
#******************************
# ---HALUI signals---
net axis-select-x halui.axis.x.select
net jog-x-pos halui.axis.x.plus
net jog-x-neg halui.axis.x.minus
net jog-x-analog halui.axis.x.analog
net x-is-homed halui.joint.0.is-homed
#
net axis-select-y halui.axis.y.select
net jog-y-pos halui.axis.y.plus
net jog-y-neg halui.axis.y.minus
net jog-y-analog halui.axis.y.analog
net y-is-homed halui.joint.1.is-homed
#
net axis-select-u halui.axis.u.select
net jog-u-pos halui.axis.u.plus
net jog-u-neg halui.axis.u.minus
net jog-u-analog halui.axis.u.analog
net u-is-homed halui.joint.2.is-homed
#
net axis-select-v halui.axis.v.select
net jog-v-pos halui.axis.v.plus
net jog-v-neg halui.axis.v.minus
net jog-v-analog halui.axis.v.analog
net v-is-homed halui.joint.3.is-homed
#
net axis-select-a halui.axis.a.select
net jog-a-pos halui.axis.a.plus
net jog-a-neg halui.axis.a.minus
net jog-a-analog halui.axis.a.analog
net a-is-homed halui.joint.4.is-homed
#
net jog-selected-pos halui.axis.selected.plus
net jog-selected-neg halui.axis.selected.minus
net spindle-manual-cw halui.spindle.0.forward
net spindle-manual-ccw halui.spindle.0.reverse
net spindle-manual-stop halui.spindle.0.stop
net machine-is-on halui.machine.is-on
net jog-speed halui.axis.jog-speed
net MDI-mode halui.mode.is-mdi
# ---coolant signals---
net coolant-mist <= iocontrol.0.coolant-mist
net coolant-flood <= iocontrol.0.coolant-flood
# ---probe signal---
net probe-in => motion.probe-input
# ---motion control signals---
net in-position <= motion.in-position
net machine-is-enabled <= motion.motion-enabled
# ---digital in / out signals---
# ---estop signals---
net estop-out <= iocontrol.0.user-enable-out
net estop-ext => iocontrol.0.emc-enable-in
# ---manual tool change signals---
net tool-change-request <= iocontrol.0.tool-change
net tool-change-confirmed => iocontrol.0.tool-changed
net tool-number <= iocontrol.0.tool-prep-number
# ---Use external manual tool change dialog---
loadusr -W hal_manualtoolchange
net tool-change-request => hal_manualtoolchange.change
net tool-change-confirmed <= hal_manualtoolchange.changed
net tool-number => hal_manualtoolchange.number
# ---ignore tool prepare requests---
net tool-prepare-loopback iocontrol.0.tool-prepare => iocontrol.0.tool-prepared
the INI file
[code]# Generated by PNCconf at Wed Jul 17 17:05:42 2024
# Using LinuxCNC version: Master (2.9)
# If you make changes to this file, they will be
# overwritten when you run PNCconf again
[EMC]
MACHINE = foam_cutter
DEBUG = 0
VERSION = 1.1
[DISPLAY]
DISPLAY = axis
FOAM = 1
XY_Z_POS = 5
UV_W_POS = 0
POSITION_OFFSET = RELATIVE
POSITION_FEEDBACK = ACTUAL
MAX_FEED_OVERRIDE = 2.000000
MAX_SPINDLE_OVERRIDE = 1.000000
MIN_SPINDLE_OVERRIDE = 0.500000
INTRO_GRAPHIC = linuxcnc.gif
INTRO_TIME = 5
PROGRAM_PREFIX = /home/cnc002/linuxcnc/nc_files
PYVCP = pyvcp-panel.xml
INCREMENTS = 10mm 1mm .1mm .01mm
POSITION_FEEDBACK = ACTUAL
DEFAULT_LINEAR_VELOCITY = 6.000000
MAX_LINEAR_VELOCITY = 25.000000
MIN_LINEAR_VELOCITY = 0.500000
DEFAULT_ANGULAR_VELOCITY = 12.000000
MAX_ANGULAR_VELOCITY = 180.000000
MIN_ANGULAR_VELOCITY = 1.666667
EDITOR = gedit
#GEOMETRY = xyz
GEOMETRY = xyuv
CYCLE_TIME = 100
[FILTER]
PROGRAM_EXTENSION = .png,.gif,.jpg Greyscale Depth Image
PROGRAM_EXTENSION = .py Python Script
png = image-to-gcode
gif = image-to-gcode
jpg = image-to-gcode
py = python
[TASK]
TASK = milltask
CYCLE_TIME = 0.010
[RS274NGC]
PARAMETER_FILE = linuxcnc.var
RS274NGC_STARTUP_CODE = G21 G40 G90 G94 G97 G64 P0.025
[EMCMOT]
EMCMOT = motmod
COMM_TIMEOUT = 1.0
SERVO_PERIOD = 1000000
[HMOT]
CARD0=hm2_7i96.0
[HAL]
HALUI = halui
HALFILE = foam_cutter.hal
HALFILE = custom.hal
POSTGUI_HALFILE = pyvcp_options.hal
POSTGUI_HALFILE = custom_postgui.hal
SHUTDOWN = shutdown.hal
[HALUI]
[KINS]
#JOINTS = 4
JOINTS = 5
#KINEMATICS = trivkins coordinates=XYZA
#KINEMATICS = trivkins coordinates=XYUV
KINEMATICS = trivkins coordinates=XYUVA
[TRAJ]
#COORDINATES = XYZA
#COORDINATES = XYUV
COORDINATES = XYUVA
MAX_ANGULAR_VELOCITY = 360.00
DEFAULT_ANGULAR_VELOCITY = 36.00
LINEAR_UNITS = mm
ANGULAR_UNITS = degree
DEFAULT_LINEAR_VELOCITY = 2.50
MAX_LINEAR_VELOCITY = 25.00
[EMCIO]
EMCIO = io
CYCLE_TIME = 0.100
TOOL_TABLE = tool.tbl
#******************************************
[AXIS_X]
MAX_VELOCITY = 25.0
MAX_ACCELERATION = 750.0
MIN_LIMIT = -0.01
MAX_LIMIT = 550.0
[JOINT_0]
TYPE = LINEAR
HOME = 0.0
FERROR = 10.0
MIN_FERROR = 1.0
MAX_VELOCITY = 25.0
MAX_ACCELERATION = 750.0
# The values below should be 25% larger than MAX_VELOCITY and MAX_ACCELERATION
# If using BACKLASH compensation STEPGEN_MAXACCEL should be 100% larger.
STEPGEN_MAXVEL = 31.25
STEPGEN_MAXACCEL = 937.50
P = 1000.0
I = 0.0
D = 0.0
FF0 = 0.0
FF1 = 1.0
FF2 = 0.0
BIAS = 0.0
DEADBAND = 0.0
MAX_OUTPUT = 0.0
# these are in nanoseconds
DIRSETUP = 20000
DIRHOLD = 20000
STEPLEN = 5000
STEPSPACE = 5000
STEP_SCALE = 1600.0
MIN_LIMIT = -0.01
MAX_LIMIT = 550.0
HOME_OFFSET = 0.0
#
HOME_SEARCH_VEL = -1.000000
HOME_LATCH_VEL = -0.500000
HOME_FINAL_VEL = 0.000000
HOME_USE_INDEX = NO
#
HOME_SEQUENCE = 0
#HOME_SEQUENCE = 1
#******************************************
#******************************************
[AXIS_Y]
MAX_VELOCITY = 25.0
MAX_ACCELERATION = 750.0
MIN_LIMIT = -0.01
MAX_LIMIT = 350.0
[JOINT_1]
TYPE = LINEAR
HOME = 0.0
FERROR = 10.0
MIN_FERROR = 1.0
MAX_VELOCITY = 25.0
MAX_ACCELERATION = 750.0
# The values below should be 25% larger than MAX_VELOCITY and MAX_ACCELERATION
# If using BACKLASH compensation STEPGEN_MAXACCEL should be 100% larger.
STEPGEN_MAXVEL = 31.25
STEPGEN_MAXACCEL = 937.50
P = 1000.0
I = 0.0
D = 0.0
FF0 = 0.0
FF1 = 1.0
FF2 = 0.0
BIAS = 0.0
DEADBAND = 0.0
MAX_OUTPUT = 0.0
# these are in nanoseconds
DIRSETUP = 20000
DIRHOLD = 20000
STEPLEN = 5000
STEPSPACE = 5000
STEP_SCALE = 800.0
MIN_LIMIT = -0.01
MAX_LIMIT = 350.0
HOME_OFFSET = 0.0
#
HOME_SEARCH_VEL = -1.000000
HOME_LATCH_VEL = -0.500000
HOME_FINAL_VEL = 0.000000
HOME_USE_INDEX = NO
#
HOME_SEQUENCE = 0
#HOME_SEQUENCE = 2
#******************************************
#******************************************
[AXIS_U]
MAX_VELOCITY = 25.0
MAX_ACCELERATION = 750.0
MIN_LIMIT = -0.01
MAX_LIMIT = 550.0
[JOINT_2]
TYPE = LINEAR
HOME = 0.0
FERROR = 10.0
MIN_FERROR = 1.0
MAX_VELOCITY = 25.0
MAX_ACCELERATION = 750.0
# The values below should be 25% larger than MAX_VELOCITY and MAX_ACCELERATION
# If using BACKLASH compensation STEPGEN_MAXACCEL should be 100% larger.
STEPGEN_MAXVEL = 31.25
STEPGEN_MAXACCEL = 937.50
P = 1000.0
I = 0.0
D = 0.0
FF0 = 0.0
FF1 = 1.0
FF2 = 0.0
BIAS = 0.0
DEADBAND = 0.0
MAX_OUTPUT = 0.0
# these are in nanoseconds
DIRSETUP = 20000
DIRHOLD = 20000
STEPLEN = 5000
STEPSPACE = 5000
STEP_SCALE = 800.0
MIN_LIMIT = -0.01
MAX_LIMIT = 550.0
HOME_OFFSET = 0.0
#
HOME_SEARCH_VEL = -1.000000
HOME_LATCH_VEL = -0.500000
HOME_FINAL_VEL = 0.000000
HOME_USE_INDEX = NO
#
HOME_SEQUENCE = 0
#HOME_SEQUENCE = 0
#******************************************
#******************************************
[AXIS_V]
MAX_VELOCITY = 25.0
MAX_ACCELERATION = 750.0
MIN_LIMIT = -0.01
MAX_LIMIT = 350.0
[JOINT_3]
TYPE = LINEAR
HOME = 0.0
FERROR = 10.0
MIN_FERROR = 1.0
MAX_VELOCITY = 25.0
MAX_ACCELERATION = 750.0
# The values below should be 25% larger than MAX_VELOCITY and MAX_ACCELERATION
# If using BACKLASH compensation STEPGEN_MAXACCEL should be 100% larger.
STEPGEN_MAXVEL = 31.25
STEPGEN_MAXACCEL = 937.50
P = 1000.0
I = 0.0
D = 0.0
FF0 = 0.0
FF1 = 1.0
FF2 = 0.0
BIAS = 0.0
DEADBAND = 0.0
MAX_OUTPUT = 0.0
# these are in nanoseconds
DIRSETUP = 20000
DIRHOLD = 20000
STEPLEN = 5000
STEPSPACE = 5000
STEP_SCALE = 800.0
MIN_LIMIT = -0.01
MAX_LIMIT = 350.0
HOME_OFFSET = 0.0
#
HOME_SEARCH_VEL = -1.000000
HOME_LATCH_VEL = -0.500000
HOME_FINAL_VEL = 0.000000
HOME_USE_INDEX = NO
#
HOME_SEQUENCE = 0
#HOME_SEQUENCE = 2
#******************************************
#******************************************
[AXIS_A]
MAX_VELOCITY = 360.0
MAX_ACCELERATION = 1200.0
MIN_LIMIT = -361.0
MAX_LIMIT = 361.0
[JOINT_4]
TYPE = ANGULAR
HOME = 0.0
FERROR = 0.5
MIN_FERROR = 0.05
MAX_VELOCITY = 360.0
MAX_ACCELERATION = 1200.0
# The values below should be 25% larger than MAX_VELOCITY and MAX_ACCELERATION
# If using BACKLASH compensation STEPGEN_MAXACCEL should be 100% larger.
STEPGEN_MAXVEL = 450.00
STEPGEN_MAXACCEL = 1500.00
P = 1000.0
I = 0.0
D = 0.0
FF0 = 0.0
FF1 = 1.0
FF2 = 0.0
BIAS = 0.0
DEADBAND = 0.0
MAX_OUTPUT = 0.0
# these are in nanoseconds
DIRSETUP = 10000
DIRHOLD = 10000
STEPLEN = 5000
STEPSPACE = 5000
STEP_SCALE = 4.4444
MIN_LIMIT = -361.0
MAX_LIMIT = 361.0
HOME_OFFSET = 0.0
#
#HOME_SEARCH_VEL = -1.000000
#HOME_LATCH_VEL = -0.500000
#HOME_FINAL_VEL = 0.000000
#HOME_USE_INDEX = NO
#
HOME_SEQUENCE = 1
#HOME_SEQUENCE = 3
#******************************************
[SPINDLE_0]
P = 0
I = 0
D = 0
FF0 = 1
FF1 = 0
FF2 = 0
BIAS = 0
DEADBAND = 0
MAX_OUTPUT = 100
PYVCP hal
[code]# _DO NOT_ include your HAL commands here.
# Put custom HAL commands in custom_postgui.hal
# The commands in this file are run after the GUI loads
# **** Setup of spindle speed display using pyvcp -START ****
net spindle-vel-cmd-rpm-abs => pyvcp.spindle-speed
net spindle-cw => pyvcp.spindle-at-speed-led
# **** Setup of spindle speed display using pyvcp -END ****
PYVCP xml
[code]<?xml version='1.0' encoding='UTF-8'?>
<pyvcp>
<vbox>
<relief>RIDGE</relief>
<bd>6</bd>
<label>
<text>"Wire Power:"</text>
<font>;("Helvetica",20)</font>
</label>
<bar>
<halpin>"spindle-speed"</halpin>
<max_>100</max_>
</bar>
<label>
<text>"Wire ON:"</text>
<font>;("Helvetica",20)</font>
</label>
<hbox>
<label>
<text>" "</text>
<font>;("Helvetica",20)</font>
</label>
<led>
<halpin>"spindle-at-speed-led"</halpin>
<size>30</size>
<on_color>"red"</on_color>
<off_color>"blue"</off_color>
</led>
</hbox>
</vbox>
</pyvcp>
Last edit: 29 Jul 2024 10:13 by my1987toyota. Reason: fixing the mess the code made of things
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