Despite its name, CNCSimulator Pro is so much more than just a great CNC simulator. It is also a contemporary CAD./CAM system, an advanced CNC programming editor, a 3D model milling software, a.
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My settings for 3018 DIY CNC machine with Woodpecker’s control board and GRBL 0.9j.20150930. Note the feed rate and acceleration on axes.
Genmitsu CNC router kit 3018-PRO is an upgraded version of 3018. It can provide better working accuracy and stability than the CNC router you see in the market. Genmitsu CNC router is friendly to beginners because of its easy assembly feature and easy to read instruction made by SainSmart. CNC 3018 PRO Laser Engraver Wood CNC Router Machine GRBL ER11 Hobby DIY Engraving In this video I install a new firmware for my Cnc 3018 Pro.
$$
$0 = 10 (step pulse, usec)
$1 = 25 (step idle delay, msec)
$2 = 0 (step port invert mask:00000000)
$3 = 5 (dir port invert mask:00000101)
$4 = 0 (step enable invert, bool)
$5 = 0 (limit pins invert, bool)
$6 = 0 (probe pin invert, bool)
$10 = 3 (status report mask:00000011)
$11 = 0.010 (junction deviation, mm)
$12 = 0.002 (arc tolerance, mm)
$13 = 0 (report inches, bool)
$20 = 0 (soft limits, bool)
$21 = 0 (hard limits, bool)
$22 = 0 (homing cycle, bool)
$23 = 0 (homing dir invert mask:00000000)
$24 = 25.000 (homing feed, mm/min)
$25 = 400.000 (homing seek, mm/min)
$26 = 250 (homing debounce, msec)
$27 = 1.000 (homing pull-off, mm)
$100 = 800.000 (x, step/mm)
$101 = 800.000 (y, step/mm)
$102 = 800.000 (z, step/mm)
$110 = 2500.000 (x max rate, mm/min)
$111 = 2000.000 (y max rate, mm/min)
$112 = 1500.000 (z max rate, mm/min)
$120 = 45.000 (x accel, mm/sec^2)
$121 = 45.000 (y accel, mm/sec^2)
$122 = 48.000 (z accel, mm/sec^2)
$130 = 300.000 (x max travel, mm)
$131 = 180.000 (y max travel, mm)
$132 = 44.000 (z max travel, mm)
$0 = 10 (step pulse, usec)
$1 = 25 (step idle delay, msec)
$2 = 0 (step port invert mask:00000000)
$3 = 5 (dir port invert mask:00000101)
$4 = 0 (step enable invert, bool)
$5 = 0 (limit pins invert, bool)
$6 = 0 (probe pin invert, bool)
$10 = 3 (status report mask:00000011)
$11 = 0.010 (junction deviation, mm)
$12 = 0.002 (arc tolerance, mm)
$13 = 0 (report inches, bool)
$20 = 0 (soft limits, bool)
$21 = 0 (hard limits, bool)
$22 = 0 (homing cycle, bool)
$23 = 0 (homing dir invert mask:00000000)
$24 = 25.000 (homing feed, mm/min)
$25 = 400.000 (homing seek, mm/min)
$26 = 250 (homing debounce, msec)
$27 = 1.000 (homing pull-off, mm)
$100 = 800.000 (x, step/mm)
$101 = 800.000 (y, step/mm)
$102 = 800.000 (z, step/mm)
$110 = 2500.000 (x max rate, mm/min)
$111 = 2000.000 (y max rate, mm/min)
$112 = 1500.000 (z max rate, mm/min)
$120 = 45.000 (x accel, mm/sec^2)
$121 = 45.000 (y accel, mm/sec^2)
$122 = 48.000 (z accel, mm/sec^2)
$130 = 300.000 (x max travel, mm)
$131 = 180.000 (y max travel, mm)
$132 = 44.000 (z max travel, mm)
And for 1.1j:
Grbl 1.1f [‘$’ for help]
>>> $$
$0 = 10 (Step pulse time, microseconds)
$1 = 25 (Step idle delay, milliseconds)
$2 = 0 (Step pulse invert, mask)
$3 = 5 (Step direction invert, mask)
$4 = 0 (Invert step enable pin, boolean)
$5 = 0 (Invert limit pins, boolean)
$6 = 0 (Invert probe pin, boolean)
$10 = 3 (Status report options, mask)
$11 = 0.010 (Junction deviation, millimeters)
$12 = 0.002 (Arc tolerance, millimeters)
$13 = 0 (Report in inches, boolean)
$20 = 0 (Soft limits enable, boolean)
$21 = 0 (Hard limits enable, boolean)
$22 = 0 (Homing cycle enable, boolean)
$23 = 0 (Homing direction invert, mask)
$24 = 25.000 (Homing locate feed rate, mm/min)
$25 = 500.000 (Homing search seek rate, mm/min)
$26 = 250 (Homing switch debounce delay, milliseconds)
$27 = 1.000 (Homing switch pull-off distance, millimeters)
$30 = 1000 (Maximum spindle speed, RPM)
$31 = 5 (Minimum spindle speed, RPM)
$32 = 0 (Laser-mode enable, boolean)
$100 = 800.000 (X-axis travel resolution, step/mm)
$101 = 800.000 (Y-axis travel resolution, step/mm)
$102 = 800.000 (Z-axis travel resolution, step/mm)
$110 = 2500.000 (X-axis maximum rate, mm/min)
$111 = 2000.000 (Y-axis maximum rate, mm/min)
$112 = 1500.000 (Z-axis maximum rate, mm/min)
$120 = 45.000 (X-axis acceleration, mm/sec^2)
$121 = 45.000 (Y-axis acceleration, mm/sec^2)
$122 = 48.000 (Z-axis acceleration, mm/sec^2)
$130 = 300.000 (X-axis maximum travel, millimeters)
$131 = 180.000 (Y-axis maximum travel, millimeters)
$132 = 44.000 (Z-axis maximum travel, millimeters)
>>> $$
$0 = 10 (Step pulse time, microseconds)
$1 = 25 (Step idle delay, milliseconds)
$2 = 0 (Step pulse invert, mask)
$3 = 5 (Step direction invert, mask)
$4 = 0 (Invert step enable pin, boolean)
$5 = 0 (Invert limit pins, boolean)
$6 = 0 (Invert probe pin, boolean)
$10 = 3 (Status report options, mask)
$11 = 0.010 (Junction deviation, millimeters)
$12 = 0.002 (Arc tolerance, millimeters)
$13 = 0 (Report in inches, boolean)
$20 = 0 (Soft limits enable, boolean)
$21 = 0 (Hard limits enable, boolean)
$22 = 0 (Homing cycle enable, boolean)
$23 = 0 (Homing direction invert, mask)
$24 = 25.000 (Homing locate feed rate, mm/min)
$25 = 500.000 (Homing search seek rate, mm/min)
$26 = 250 (Homing switch debounce delay, milliseconds)
$27 = 1.000 (Homing switch pull-off distance, millimeters)
$30 = 1000 (Maximum spindle speed, RPM)
$31 = 5 (Minimum spindle speed, RPM)
$32 = 0 (Laser-mode enable, boolean)
$100 = 800.000 (X-axis travel resolution, step/mm)
$101 = 800.000 (Y-axis travel resolution, step/mm)
$102 = 800.000 (Z-axis travel resolution, step/mm)
$110 = 2500.000 (X-axis maximum rate, mm/min)
$111 = 2000.000 (Y-axis maximum rate, mm/min)
$112 = 1500.000 (Z-axis maximum rate, mm/min)
$120 = 45.000 (X-axis acceleration, mm/sec^2)
$121 = 45.000 (Y-axis acceleration, mm/sec^2)
$122 = 48.000 (Z-axis acceleration, mm/sec^2)
$130 = 300.000 (X-axis maximum travel, millimeters)
$131 = 180.000 (Y-axis maximum travel, millimeters)
$132 = 44.000 (Z-axis maximum travel, millimeters)
Genmitsu Cnc 3018-pro Mac Download Software Download
After some tweaking with axes current settings:
Sainsmart Genmitsu Cnc 3018 Pro
$110 = 2500.000 (X-axis maximum rate, mm/min)
$111 = 2500.000 (Y-axis maximum rate, mm/min)
$112 = 2000.000 (Z-axis maximum rate, mm/min)
$120 = 80.000 (X-axis acceleration, mm/sec^2)
$121 = 80.000 (Y-axis acceleration, mm/sec^2)
$122 = 100.000 (Z-axis acceleration, mm/sec^2)