This will produce co-ordinated linear motion to the destination point at the current feed rate (or slower if the machine will not go that fast). The G1 is optional if the current motion mode is G1. (a) For linear motion at feed rate (for cutting or not), program G1 X~ Y~ Z~ A~ B~ C~, where all the axis words are optional, except that at least one must be used. If G53 is programmed on the same line, the motion will also differ see Absolute Coordinates.
If cutter radius compensation is active, the motion will differ from the above see Cutter Compensation. the conventional four quadrant conventions).Ĭoordinates of the current point at the time of executing the G16 are the polar origin. X~ is the radius of the line from the G16 polar origin and Y~ is the angle in degrees measured with increasing values counterclockwise from the 3 o&p12/G-codes/pages.html#39 clock direction (i.e. (b) If G16 has been executed to set a Polar Origin then for rapid linear motion to a point described by a radius and angle G0 X~ Y~ can be used. It is expected that cutting will not take place when a G0 command is executing. This will produce co-ordinated linear motion to the destination point at the current traverse rate (or slower if the machine will not go that fast). The G0 is optional if the current motion mode is G0. (a) For rapid linear motion, program G0 X~ Y~ Z~ A~ B~ C~, where all the axis words are optional, except that at least one must be used.