motion - accepts NML motion commands, interacts with HAL in realtime
loadrt motmod [base_period_nsec=period] [base_thread_fp=0 or 1] [servo_period_nsec=period] [traj_period_nsec=period] [num_joints=[1-16]] [num_dio=[1-64] | names_dout=name[,...] names_din=name[,...]] [num_aio=[1-64] | names_aout=name[,...] names_ain=name[,...]] [num_misc_error=[0-64]] [num_spindles=[1-8]] [unlock_joints_mask=jointmask] [num_extrajoints=[0-16]]
The limits for
the following items are compile-time settings:
num_joints: Maximum number of joints is set by
EMCMOT_MAX_JOINTS.
num_dio: Maximum number of digital IO pins is set by
EMCMOT_MAX_DIO.
Minimum is 1, if num_dio is not specified, it defaults to DEFAULT_DIO.
names_dout: A comma-separated list of names for digital output pins.
This parameter is mutually exclusive with num_dio, but can be combined with names_din. A maximum of EMCMOT_MAX_DIO names can be specified. The default digital output pin has names like motion.digital-out-00 whereas names_dout=is-homing-x,is-homing-y will create the HAL pins motion.dout-is-homing-x and motion.dout-is-homing-y.
names_din: A comma-separated list of names for digital input pins.
This parameter is mutually exclusive with num_dio, but can be combined with names_dout. A maximum of EMCMOT_MAX_DIO names can be specified. The default digital input pin has names like motion.digital-in-00 whereas names_din=homed-x,homed-y will create the HAL pins motion.din-homed-x and motion.din-homed-y.
num_aio: Maximum number of analog IO pins is set by EMCMOT_MAX_AIO.
Minimum is 1, if num_aio is not specified, it defaults to DEFAULT_AIO.
names_aout: A comma-separated list of names for analog output pins.
This parameter is mutually exclusive with num_aio, but can be combined with names_ain. A maximum of EMCMOT_MAX_AIO names can be specified. The default analog output pin has names like motion.analog-out-00 whereas names_aout=feedrate1,feedrate2 will create the HAL pins motion.aout-feedrate1 and motion.aout-feedrate2.
names_ain: A comma-separated list of names for analog input pins.
This parameter is mutually exclusive with num_aio, but can be combined with names_aout. A maximum of EMCMOT_MAX_AIO names can be specified. The default analog input pin has names like motion.analog-in-00 whereas names_ain=proxy1,proxy2 will create the HAL pins motion.ain-proxy1 and motion.ain-proxy2.
num_misc_error: Maximum
number of extra error inputs is set by
EMCMOT_MAX_MISC_ERRORS.
names_misc_errors: A comma-separated list of names for
extra error
inputs.
This parameter is mutually exclusive with num_misc_error. If using num_misc_error the additional error input pins will have names like motion.misc-error-00 whereas names_misc_errors=overtemp,undertemp will create hal pins motion.err-overtemp and motion.err-undertemp
num_spindles: Maximum
number of spindles is set by EMCMOT_MAX_SPINDLES
num_spindles: Maximum number of spindles is set by
EMCMOT_MAX_SPINDLES.
Pin names starting with "joint" or "axis" are read and updated by the motion-controller function.
By default, the base thread does not support floating point. Software stepping, software encoder counting, and software pwm do not use floating point. base_thread_fp can be used to enable floating point in the base thread (for example for brushless DC motor control).
These pins and parameters are created by the realtime motmod module. This module provides a HAL interface for LinuxCNC’s motion planner. Basically motmod takes in a list of waypoints and generates a nice blended and constraint-limited stream of joint positions to be fed to the motor drives.
The optional num_extrajoints parameter specifies a quantity of joints that participate in homing but are not used by kinematics transformations. After homing, control of an ’extra’ joint is transferred to a posthome command HAL pin (joint.N.posthome-cmd) and the motor feedback value is ignored. ’Extra’ joints must be managed by independent motion planners/controllers (typically using limit3 HAL components). Extra joints maybe unhomed only when motion is disabled.
The maximum num_extrajoints value is equal to the num_joints value. (Note that using the maximum value would allow no operation in world coordinates). The num_joints value must be equal to the sum of the number of joints used for kinematics calculations plus the number of ’extra’ joints.
The num_joints parameter is conventionally set using the INI file setting [KINS]JOINTS=value. The num_extrajoints is set by the additional motmod parameter [EMCMOT]motmod num_extrajoints=value. HAL pin numbering for all joints is zero based [0 ... num_joints-1]. When specified, ’extra’ joints are assigned the last num_extrajoints in the numbering sequence. For example, specifying [KINS]JOINTS=5 and [EMCMOT]motmod num_extrajoints=2 for a 3 joint trivkins configuration [KINS] KINEMATICS=trivkins coordinates=xyz uses joints 0,1,2 for the kinematic joints and joints 3,4 for the ’extra’ joints.
An equal number of digital or analog IO pins will always be created. For example, if names_din is specified with two pins, two named input and two default named output pins will be created. In cases where names_dout is specified with two pins and names_din with three pins, two named output and one default named output pin will be created, along with three named input pins. This principle applies independently to digital and analog IO pins, allowing for scenarios such as having three digital pins and two analog pins.
motion-command-handler.time OUT S32
Time (in CPU clocks) for the motion module motion-command-handler
motion-controller.time OUT S32
Time (in CPU clocks) for the motion module motion-controller
motion.adaptive-feed IN FLOAT
When adaptive feed is enabled with M52 P1, the commanded velocity is multiplied by this value. This effect is multiplicative with the NML-level feed override value and motion.feed-hold. Negative values are valid and will run the G-code path in reverse.
motion.analog-in-NN IN FLOAT
These pins are used by M66 Enn wait-for-input mode.
motion.analog-out-NN OUT FLOAT
These pins are used by M67-68.
motion.coord-error OUT BIT
TRUE when motion has encountered an error, such as exceeding a soft limit
motion.coord-mode OUT BIT
TRUE when motion is in "coordinated mode", as opposed to "teleop mode"
motion.current-vel OUT FLOAT
Current cartesian velocity
motion.digital-in-NN IN BIT
These pins are used by M66 Pnn wait-for-input mode.
motion.digital-out-NN OUT BIT
These pins are controlled by the M62 through M65 words.
motion.distance-to-go OUT FLOAT
Distance remaining in the current move
motion.enable IN BIT
If this bit is driven FALSE, motion stops, the machine is placed in the "machine off" state, and a message is displayed for the operator. For normal motion, drive this bit TRUE.
motion.eoffset-active OUT BIT
Indicates external offsets are active (non-zero)
motion.eoffset-limited OUT BIT
Indicates motion with external offsets was limited by a soft limit constraint ([AXIS_L]MIN_LIMIT,MAX_LIMIT).
motion.feed-hold IN BIT
When Feed Stop Control is enabled with M53 P1, and this bit is TRUE, the feed rate is set to 0.
Note: feed-hold applies to G-code commands -- not jogs.
motion.feed-inhibit IN BIT
When this pin is TRUE, machine motion is inhibited for G-code commands.
If the machine is performing a spindle synchronized move when this pin goes TRUE, the spindle synchronized motion will finish, and any following moves will be inhibited (this is to prevent damage to the machine, the tool, or the work piece).
If the machine is in the middle of a (non-spindle synchronized) move when this pin goes TRUE, the machine will decelerate to a stop at the maximum allowed acceleration rate.
Motion resumes when this pin goes FALSE.
Note: feed-inhibit applies to G-code commands -- not jogs.
motion.feed-upm OUT FLOAT
Current feed rate in G-code program units per minute for motion.motion-type feed(2) and arc(3). Value is the G-code program F value multiplied by the current feed override value and the motion.adaptive-feed setting (if M52 active). Value is zero if motion.feed-hold or motion.feed-inhibit are asserted. If units (G20 or G21) are not specified in the G-code file then units will be the last units used.
motion.feed-inches-per-minute OUT FLOAT
Current feed rate in inches per minute for motion.motion-type feed(2) and arc(3). Value is the inch equivalent of the G-code program F value multiplied by the current feed override value and the motion.adaptive-feed setting (if M52 active). Value is zero if motion.feed-hold or motion.feed-inhibit are asserted.
motion.feed-inches-per-second OUT FLOAT
Current feed rate in inches per second for motion.motion-type feed(2) and arc(3). Value is the inch equivalent of the G-code program F value multiplied by the current feed override value and the motion.adaptive-feed setting (if M52 active). Value is zero if motion.feed-hold or motion.feed-inhibit are asserted.
motion.feed-mm-per-minute OUT FLOAT
Current feed rate in mm per minute for motion.motion-type feed(2) and arc(3). Value is the mm equivalent of the G-code program F value multiplied by the current feed override value and the motion.adaptive-feed setting (if M52 active). Value is zero if motion.feed-hold or motion.feed-inhibit are asserted.
motion.feed-mm-per-second OUT FLOAT
Current feed rate in mm per second for motion.motion-type feed(2) and arc(3). Value is the mm equivalent of the G-code program F value multiplied by the current feed override value and the motion.adaptive-feed setting (if M52 active). Value is zero if motion.feed-hold or motion.feed-inhibit are asserted.
motion.homing-inhibit IN BIT
If this bit is TRUE, initiation of any joint homing move (including "Home All") is disallowed and an error is reported. By default, homing is allowed in joint mode whenever motion is enabled.
motion.is-all-homed OUT BIT
TRUE if all active joints is homed.
motion.jog-inhibit IN BIT
If this bit is TRUE, jogging of any joint or axis is disallowed and an error is reported.
motion.jog-stop IN BIT
If any jog is active when the pin state changes to TRUE then that jog will be stopped following the associated acceleration values.
motion.jog-stop-immediate IN BIT
If any jog is active when the pin state changes to TRUE then that jog will be stopped immediately.
motion.jog-is-active OUT BIT
TRUE if any joint or axis is jogging.
motion.in-position OUT BIT
TRUE if the machine is in position (ie, not currently moving towards the commanded position).
motion.misc-error-NN IN BIT
Extra error inputs for faults such as over-temperature sensors, low coolant warnings, custom HAL component errors. If driven TRUE this will disable a machine. Similar to spindle.amp-fault-in.
motion.motion-enabled
OUT BIT
motion.motion-type OUT S32
These values are from src/emc/nml_intf/motion_types.h.
0: Idle (no motion)
1: Traverse
2: Linear feed
3: Arc feed
4: Tool change
5: Probing
6: Rotary unlock for traverse
motion.on-soft-limit OUT
BIT
motion.probe-input IN BIT
G38.n uses the value on this pin to determine when the probe has made contact. TRUE for probe contact closed (touching), FALSE for probe contact open.
motion.program-line OUT S32
The current program line while executing. Zero if not running or between lines while single stepping.
motion.requested-vel OUT FLOAT
The current requested velocity in user units per second. This value is the F-word setting from the G-code file, possibly reduced to accommodate machine velocity and acceleration limits. The value on this pin does not reflect the feed override or any other adjustments.
motion.servo.last-period OUT U32
The number of CPU clocks between invocations of the servo thread. Typically, this number divided by the CPU speed gives the time in seconds, and can be used to determine whether the realtime motion controller is meeting its timing constraints
motion.switchkins-type IN float
Kinematics modules that define the functions kinematicsSwitchable() and kinematicsSwitch() receive the integer value of this pin to select the machine kinematics functions. Extra G-code commands may be required to synchronize task and motion before and after changes to the pin value.
motion.teleop-mode OUT BIT
Motion mode is teleop (axis coordinate jogging available).
motion.tooloffset.L OUT FLOAT
Current tool offset for each axis where (L is the axis letter, one of: x y z a b c u v w)
motion.tp-reverse OUT BIT
Trajectory planning is reversed (reverse run)
(L is
the axis letter, one of: x y z a b c u v w)
axis.L.eoffset OUT FLOAT
Current external offset.
axis.L.eoffset-clear IN BIT
Clear external offset request
axis.L.eoffset-counts IN S32
Counts input for external offset. The eoffset-counts are transferred to an internal register. The applied external offset is the product of the register counts and the eoffset-scale value. The register is reset to zero at each machine startup. If the machine is turned off with an external offset active, the eoffset-counts pin should be set to zero before restarting.
axis.L.eoffset-enable IN BIT
Enable for external offset (also requires INI file setting for [AXIS_L]OFFSET_AV_RATIO)
axis.L.eoffset-request OUT FLOAT
Debug pin for requested external offset.
axis.L.eoffset-scale IN FLOAT
Scale for external offset.
axis.L.jog-accel-fraction IN FLOAT
Sets acceleration for wheel jogging to a fraction of the INI max_acceleration for the axis. Values greater than 1 or less than zero are ignored.
axis.L.jog-counts IN S32
Connect to the "counts" pin of an external encoder to use a physical jog wheel.
axis.L.jog-enable IN BIT
When TRUE (and in manual mode), any change to "jog-counts" will result in motion. When false, "jog-counts" is ignored.
axis.L.jog-scale IN FLOAT
Sets the distance moved for each count on "jog-counts", in machine units.
axis.L.jog-vel-mode IN BIT
When FALSE (the default), the jogwheel operates in position mode. The axis will move exactly jog-scale units for each count, regardless of how long that might take. When TRUE, the wheel operates in velocity mode - motion stops when the wheel stops, even if that means the commanded motion is not completed.
axis.L.kb-jog-active OUT BIT
(free planner axis jogging active (keyboard or halui))
axis.L.pos-cmd OUT FLOAT
The axis commanded position. There may be several offsets between the axis and motor coordinates: backlash compensation, screw error compensation, and home offsets. External offsets are reported separately (axis.L.eoffset).
axis.L.teleop-pos-cmd
OUT FLOAT
axis.L.teleop-tp-enable OUT BIT
TRUE when the "teleop planner" is enabled for this axis.
axis.L.teleop-vel-cmd OUT FLOAT
The axis’s commanded velocity.
axis.L.teleop-vel-lim OUT FLOAT
The velocity limit for the teleop planner.
axis.L.wheel-jog-active OUT BIT
N is the
joint number (0 ... num_joints-1))
(Note: pins marked (DEBUG) serve as debugging
aids and are subject to
change or removal at any time.)
joint.N.acc-cmd OUT FLOAT
(DEBUG)
The joint’s commanded acceleration.
joint.N.active OUT BIT (DEBUG)
TRUE when this joint is active.
joint.N.amp-enable-out OUT BIT
TRUE if the amplifier for this joint should be enabled.
joint.N.amp-fault-in IN BIT
Should be driven TRUE if an external fault is detected with the amplifier for this joint.
joint.N.backlash-corr OUT FLOAT (DEBUG)
Backlash or screw compensation raw value.
joint.N.backlash-filt OUT FLOAT (DEBUG)
Backlash or screw compensation filtered value (respecting motion limits).
joint.N.backlash-vel OUT FLOAT (DEBUG)
Backlash or screw compensation velocity.
joint.N.coarse-pos-cmd
OUT FLOAT (DEBUG)
joint.N.error OUT BIT (DEBUG)
TRUE when this joint has encountered an error, such as a limit switch closing.
joint.N.f-error OUT FLOAT (DEBUG)
The actual following error.
joint.N.f-error-lim OUT FLOAT (DEBUG)
The following error limit.
joint.N.f-errored OUT BIT (DEBUG)
TRUE when this joint has exceeded the following error limit.
joint.N.faulted
OUT BIT (DEBUG)
joint.N.free-pos-cmd OUT FLOAT
(DEBUG)
The "free planner" commanded position for this joint.
joint.N.free-tp-enable OUT BIT (DEBUG)
TRUE when the "free planner" is enabled for this joint.
joint.N.free-vel-lim OUT FLOAT (DEBUG)
The velocity limit for the free planner.
joint.N.home-state OUT S32 (DEBUG)
homing state machine state
joint.N.home-sw-in IN BIT
Should be driven TRUE if the home switch for this joint is closed.
joint.N.homed OUT BIT (DEBUG)
TRUE if the joint has been homed.
joint.N.homing OUT BIT
TRUE if the joint is currently homing.
joint.N.in-position OUT BIT (DEBUG)
TRUE if the joint is using the "free planner" and has come to a stop.
joint.N.index-enable IO BIT
Should be attached to the index-enable pin of the joint’s encoder to enable homing to index pulse.
joint.N.is-unlocked IN BIT
Indicates joint is unlocked (see JOINT UNLOCK PINS).
joint.N.jog-accel-fraction IN FLOAT
Sets acceleration for wheel jogging to a fraction of the INI max_acceleration for the joint. Values greater than 1 or less than zero are ignored.
joint.N.jog-counts IN S32
Connect to the "counts" pin of an external encoder to use a physical jog wheel.
joint.N.jog-enable IN BIT
When TRUE (and in manual mode), any change to "jog-counts" will result in motion. When false, "jog-counts" is ignored.
joint.N.jog-scale IN FLOAT
Sets the distance moved for each count on "jog-counts", in machine units.
joint.N.jog-vel-mode IN BIT
When FALSE (the default), the jogwheel operates in position mode. The joint will move exactly jog-scale units for each count, regardless of how long that might take. When TRUE, the wheel operates in velocity mode - motion stops when the wheel stops, even if that means the commanded motion is not completed.
joint.N.kb-jog-active OUT BIT (DEBUG)
(free planner joint jogging active (keyboard or halui))
joint.N.motor-offset OUT FLOAT (DEBUG)
joint motor offset established when joint is homed.
joint.N.motor-pos-cmd OUT FLOAT
The commanded position for this joint.
joint.N.motor-pos-fb IN FLOAT
The actual position for this joint.
joint.N.neg-hard-limit OUT BIT (DEBUG)
The negative hard limit for the joint
joint.N.neg-lim-sw-in IN BIT
Should be driven TRUE if the negative limit switch for this joint is tripped.
joint.N.pos-cmd OUT FLOAT
The joint (as opposed to motor) commanded position. There may be several offsets between the joint and motor coordinates: backlash compensation, screw error compensation, and home offsets.
joint.N.pos-fb OUT FLOAT
The joint feedback position. This value is computed from the actual motor position minus joint offsets. Useful for machine visualization.
joint.N.pos-hard-limit OUT BIT (DEBUG)
The positive hard limit for the joint.
joint.N.pos-lim-sw-in IN BIT
Should be driven TRUE if the positive limit switch for this joint is tripped.
joint.N.unlock OUT BIT
TRUE if the axis is a locked joint (typically a rotary) and a move is commanded (see JOINT UNLOCK PINS).
joint.N.vel-cmd OUT FLOAT (DEBUG)
The joint’s commanded velocity.
joint.N.wheel-jog-active OUT BIT (DEBUG)
Each joint designated as an ’extra’ joint is provided with a HAL pin joint.N.posthome-cmd. The pin value is ignored prior to homing. After homing, the pin value is augmented by the motor offset value and routed to the joint.N.motor-pos-cmd.
The joint pins used for unlocking a joint (joint.N.unlock, joint.N.is-unlocked), are created according to the unlock_joints_mask=jointmask parameter for motmod. These pins may be required for locking indexers (typically a rotary joint)
The jointmask
bits are: (lsb)0:joint0, 1:joint1, 2:joint2, ...
Example: loadrt motmod ... unlock_joints_mask=0x38
creates unlock pins
for joints 3,4,5
(M is
the spindle number (0 ... num_spindles-1))
spindle.M.amp-fault-in IN BIT
Should be driven TRUE if an external fault is detected with the amplifier for this spindle.
spindle.M.at-speed IN BIT
Motion will pause until this pin is TRUE, under the following conditions: before the first feed move after each spindle start or speed change; before the start of every chain of spindle-synchronized moves; and if in CSS mode, at every rapid->feed transition.
spindle.M.brake OUT BIT
TRUE when the spindle brake should be applied.
spindle.M.forward OUT BIT
TRUE when the spindle should rotate forward.
spindle.M.index-enable I/O BIT
For correct operation of spindle synchronized moves, this signal must be hooked to the index-enable pin of the spindle encoder.
spindle.M.inhibit IN BIT
When TRUE, the spindle speed is set and held to 0.
spindle.M.is-oriented IN BIT
Acknowledge pin for spindle-orient. Completes orient cycle. If spindle-orient was true when spindle-is-oriented was asserted, the spindle-orient pin is cleared and the spindle-locked pin is asserted. Also, the spindle-brake pin is asserted.
spindle.M.locked OUT BIT
Spindle orient complete pin. Cleared by any of M3,M4,M5.
spindle.M.on OUT BIT
TRUE when spindle should rotate.
spindle.M.orient OUT BIT
Indicates start of spindle orient cycle. Set by M19. Cleared by any of M3,M4,M5.
If spindle-orient-fault is not zero during spindle-orient true, the M19 command fails with an error message.
spindle.M.orient-angle OUT FLOAT
Desired spindle orientation for M19. Value of the M19 R word parameter plus the value of the [RS274NGC]ORIENT_OFFSET INI parameter.
spindle.M.orient-fault IN S32
Fault code input for orient cycle. Any value other than zero will cause the orient cycle to abort.
spindle.M.orient-mode OUT BIT
Desired spindle rotation mode. Reflects M19 P parameter word.
spindle.M.reverse OUT BIT
TRUE when the spindle should rotate backward.
spindle.M.revs IN FLOAT
For correct operation of spindle synchronized moves, this signal must be hooked to the position pin of the spindle encoder.
spindle.M.speed-cmd-rps FLOAT OUT
Commanded spindle speed in units of revolutions per second.
spindle.M.speed-in IN FLOAT
Actual spindle speed feedback in revolutions per second; used for G96 (constant surface speed) and G95 (feed per revolution) modes.
spindle.M.speed-out OUT FLOAT
Desired spindle speed in rotations per minute.
spindle.M.speed-out-abs OUT FLOAT
Desired spindle speed in rotations per minute, always positive regardless of spindle direction.
spindle.M.speed-out-rps OUT FLOAT
Desired spindle speed in rotations per second.
spindle.M.speed-out-rps-abs OUT FLOAT
Desired spindle speed in rotations per second, always positive regardless of spindle direction.
Many of the
parameters serve as debugging aids, and are subject to
change or removal at any time.
motion-command-handler.tmax RW S32
Show information about the execution time of these HAL functions in CPU clocks.
motion-command-handler.tmax-increased
RO S32
motion-controller.tmax RW S32
Show information about the execution time of these HAL functions in CPU clocks.
motion-controller.tmax-increased
RO BIT
motion.debug-*
These values are used for debugging purposes.
Generally,
these functions are both added to the servo-thread in the
order shown.
motion-command-handler
Receive and process incoming motion commands. The pin named motion-command-handler.time and parameters motion-command-handler.tmax,tmax-increasedare created for this function.
motion-controller
Runs the LinuxCNC motion controller. The pin named motion-controller.time and parameters motion-controller.tmax,tmax-increased are created for this function.
This manual
page is incomplete.
Identification of pins categorized with (DEBUG) is
dubious.
iocontrol(1), milltask(1), spindle(9)