1 principle and overview – HEIDENHAIN iTNC 530 (34049x-08) User Manual

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Programming: Q parameters

9.1 Pr

inciple and o

v

erview

9.1 Principle and overview

You can program entire families of parts in a single part program. You
do this by entering variables called Q parameters instead of fixed
numerical values.

Q parameters can represent information such as:



Coordinate values



Feed rates



Spindle speeds



Cycle data

Q parameters also enable you to program contours that are defined
with mathematical functions. You can also use Q parameters to make
the execution of machining steps depend on logical conditions. In
conjunction with FK programming you can also combine contours that
do not have NC-compatible dimensions with Q parameters.

Q parameters are designated by letters and a number between 0 and
1999. Parameters that take effect in different manners are available.
Please refer to the following table:

Q4

Q2

Q3

Q1

Q5

Q6

Meaning

Range

Freely applicable parameters, as long as no
overlapping with SL cycles can occur. They
are globally effective for all programs stored
in the TNC memory.

Q0

to Q99

Parameters for special TNC functions

Q100

to Q199

Parameters that are primarily used for cycles,
globally effective for all programs stored in
the TNC memory

Q200

to Q1199

Parameters that are primarily used for OEM
cycles, and are globally effective for all
programs stored in the TNC memory. This
may require coordination with the machine
manufacturer or supplier

Q1200

to Q1399

Parameters that are primarily used for call-
active OEM cycles, globally effective for all
programs that are stored in the TNC memory

Q1400

to Q1499

Parameters that are primarily used for Def-
active OEM cycles, globally effective for all
programs that are stored in the TNC memory

Q1500

to Q1599