CncChannelType may generate events of type CncMessageType to provide channel specific information messages (for instance triggered out of CNC part program).
CncChannelType may generate events of type GeneralModelChangeEventType defined in OPC 10000-3 to inform Clients when CncSpindle or CncAxis Objects have been added or removed from a CncChannelType instance.
The optional Property NodeVersion shall be present if the Server emits GeneralModelChangeEvents for the Object of type CncChannelType. The NodeVersion Property and the relation to GeneralModelChangeEvents are defined in OPC 10000-3.
CNC axis object.
CNC spindle object.
Feedrate actual value.
Active JOG increment, i.e. a position increment that is executed with each user jog command. Usually, there are predefined increments given (1/10, 1/100, 1/1000 position increment in the selected physical unit), but a continuous jog mode and a jog mode with variable increment are possible, too. A continuous jog mode is indicated with a jog increment value of -1, all other jog increments are given as real increments in the appropriate units.
Array of active G functions; there can be several G functions active at a time (modal and non-modal G functions).
Path of active CNC main program.
File offset of active CNC main program file (corresponds to the number of line feeds).
Name of active CNC main program.
Line number of active CNC main program (usually defined as N<Number>).
Array of active M functions: there can be several M functions active at a time (modal and non-modal M functions).
Active zero offset function (usually G54, G55, G56 or G57; G53 repeals zero offsets).
Channel’s active mode of operation. See 7.2.6 for further description of possible states.
Axis override actual value.
Block of lines containing the previous, actual and subsequent lines of a CNC part program.
Path of active CNC part program file (main or subprogram).
File offset of active CNC part program file (main or subprogram).
Line number of active CNC part program (main or subprogram).
Name of active CNC part program (main or subprogram).
Active channel program status. See 7.2.5 for further description of possible states.
Active status of channel. See 7.2.4 for further description of possible states.
Block mode status (true in case of block mode is active, else false). With block mode active, individual program blocks are processed one by one. Each step has to be triggered by the operator.
Feedrate setpoint value.
Override setpoint value.
Test federate.
Feed status (true in case of feed hold active, else false).
Unique numeric channel identifier.
Actual position of the tool center point in machine’s Cartesian base coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point.
Actual position of the tool center point in machine’s Cartesian base coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point.
Actual position of the tool center point in machine’s Cartesian base coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point.
Actual position of the tool center point in machine’s Cartesian base coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point.
Actual position of the tool center point in machine’s Cartesian base coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point.
Actual position of the tool center point in machine’s Cartesian base coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point.
Actual position of the tool center point in machine’s Cartesian workpiece coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point. Hence, the position corresponds to the position programmed in the CNC part program.
Actual position of the tool center point in machine’s Cartesian workpiece coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point. Hence, the position corresponds to the position programmed in the CNC part program.
Actual position of the tool center point in machine’s Cartesian workpiece coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point. Hence, the position corresponds to the position programmed in the CNC part program.
Actual position of the tool center point in machine’s Cartesian workpiece coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point. Hence, the position corresponds to the position programmed in the CNC part program.
Actual position of the tool center point in machine’s Cartesian workpiece coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point. Hence, the position corresponds to the position programmed in the CNC part program.
Actual position of the tool center point in machine’s Cartesian workpiece coordinate system. The tool center point is the reference point on a tool how it is considered by the CNC’s tool compensation function. If there is no tool present, the tool center point is the tool carrier zero point. Hence, the position corresponds to the position programmed in the CNC part program.
ID of active tool that has been selected (e.g. calling “T1” in the CNC part program). Returns an empty string, if no tool is present.